CN212552270U - Diaxon laser welding cuts device - Google Patents
Diaxon laser welding cuts device Download PDFInfo
- Publication number
- CN212552270U CN212552270U CN202021863084.9U CN202021863084U CN212552270U CN 212552270 U CN212552270 U CN 212552270U CN 202021863084 U CN202021863084 U CN 202021863084U CN 212552270 U CN212552270 U CN 212552270U
- Authority
- CN
- China
- Prior art keywords
- sliding ring
- light guide
- laser
- upper sliding
- laser welding
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Landscapes
- Laser Beam Processing (AREA)
Abstract
The utility model discloses a two-axis laser welding and cutting device, which comprises a laser fiber joint, a fiber joint seat, a first upper sliding ring, a first lower sliding ring, a first transmission gear, a first servo motor, a first motor gear, an inner light guide wall body, a mounting bracket, a laser reflector and a second upper sliding ring, the optical fiber connector seat, the first upper sliding ring, the first lower sliding ring and the central axis of the first transmission gear form an upper light path, the second upper sliding ring, the second lower sliding ring, the second transmission gear and the central axis of the second motor gear form a lower light path, the upper light path is communicated with the light guide hole of the inner light guide wall body, the lower light path is vertical to the central axis of the inner light guide wall body, the laser reflector can reflect laser emitted from the light guide hole on the lower surface to the lower light path, and the lower light path is communicated with the laser inlet of the laser welding and cutting gun. The utility model discloses can avoid optic fibre and water, electricity, gas circuit pipeline to take place to drag, twine.
Description
Technical Field
The utility model relates to a laser welding equipment technical field especially relates to a diaxon laser welding cuts device.
Background
Among the prior art, laser welding cutting torch directly links optic fibre usually, when the laser welding cutting torch carries out the welding operation, the movement track such as rotatory, upset often need be carried out to the time, very easily takes place optic fibre and water, electricity, gas circuit pipeline winding at this in-process, influences the operation, can cause equipment to destroy seriously.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the main technical problem who solves provides a diaxon laser welding cuts device, can avoid optic fibre and water, electricity, gas circuit pipeline to take place to involve, twine.
In order to solve the technical problem, the utility model discloses a technical scheme be: the two-axis laser welding and cutting device comprises a laser optical fiber connector, an optical fiber connector seat, a first upper sliding ring, a first lower sliding ring, a first transmission gear, a first servo motor, a first motor gear, an inner light guide wall body, a mounting support, a laser reflector, a second upper sliding ring, a second lower sliding ring, a second transmission gear, a second servo motor, a second motor gear and a laser welding and cutting gun;
the laser optical fiber connector is arranged on an optical fiber connector seat, the optical fiber connector seat is arranged on the upper surface of a first upper sliding ring, a first lower sliding ring is axially connected with the first upper sliding ring and can rotate relative to the first upper sliding ring, the inner light guide wall body, a first transmission gear and a first lower sliding ring are sequentially and axially connected, a first servo motor is arranged on the first upper sliding ring, a first motor gear is arranged on the first servo motor and is meshed with a first transmission gear, and an upper optical path capable of passing laser is axially formed in the centers of the optical fiber connector seat, the first upper sliding ring, the first lower sliding ring and the first transmission gear;
the laser welding and cutting gun comprises an inner light guide wall body, a mounting support, a laser reflector, a second upper sliding ring, a second lower sliding ring, a second upper sliding ring, a second transmission gear, a second servo motor, a second motor gear, a second lower sliding ring, a second upper sliding ring, a second servo motor, a second transmission gear, a second upper sliding ring, a second motor gear, a second upper sliding ring, a second lower sliding ring, a second upper sliding ring, a second motor gear, a second transmission gear, a second motor gear, a second upper sliding ring, a second lower sliding ring, a second transmission gear and a second motor gear, wherein the inner light guide wall body is in a hollow cylinder shape, the inner wall of the inner light guide wall body is a reflecting surface, the upper surface and the lower surface are provided with light guide holes along the central axial direction;
the laser welding and cutting gun comprises an inner light guide wall body, an upper light path, a lower light path, a laser reflector and a laser welding and cutting gun, wherein the upper light path is communicated with a light guide hole in the upper surface of the inner light guide wall body, the lower light path is axially vertical to the center of the inner light guide wall body, the laser reflector can reflect laser emitted from the light guide hole in the lower surface of the inner light guide wall body to the lower light path, and the lower light path.
Preferably, the device also comprises a thread adjusting sleeve and a plurality of thread adjusting seats;
a plurality of screw thread adjusting bases are arranged between the optical fiber connector base and the first upper sliding ring, the screw thread adjusting bases are fixed on the upper surface of the first upper sliding ring, and the screw thread adjusting bases are sleeved with the optical fiber connector base through screw thread adjusting sleeves.
Preferably, first go up the slip ring lateral extension and have a first mounting panel, first servo motor installs on first mounting panel.
Preferably, the second upper slip ring laterally extends to have a second mounting panel, the second servo motor is installed on the second mounting panel.
Preferably, the mounting bracket is fixedly connected with the lower surface of the inner light guide wall body through a bolt.
Preferably, the second upper sliding ring is fixedly connected with the mounting bracket through a bolt.
Be different from prior art's condition, the beneficial effects of the utility model are that: through light path reflection, the laser welding and cutting gun can avoid dragging and winding of optical fibers, water, electricity and gas circuit pipelines during movement, and the operation reliability is improved.
Drawings
Fig. 1 is a schematic front view of a two-axis laser welding and cutting device according to an embodiment of the present invention.
Fig. 2 is a perspective view of a two-axis laser welding and cutting device according to an embodiment of the present invention.
Fig. 3 is a schematic perspective view of a two-axis laser welding and cutting device according to an embodiment of the present invention from another viewing angle.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1 and 3, the two-axis laser welding and cutting device of the present embodiment includes a laser fiber connector 1, a fiber connector base 2, a first upper sliding ring 3, a first lower sliding ring 4, a first transmission gear 5, a first servo motor 6, a first motor gear 7, an inner light guide wall 8, a mounting bracket 9, a laser reflector 10, a second upper sliding ring 11, a second lower sliding ring 12, a second transmission gear 13, a second servo motor 14, a second motor gear 15, and a laser welding and cutting gun 16.
The laser optical fiber connector 1 is arranged on an optical fiber connector base 2, the optical fiber connector base 2 is arranged on the upper surface of a first upper sliding ring 3, a first lower sliding ring 4 is axially connected with the first upper sliding ring 3 and can rotate relative to the first upper sliding ring 3, an inner light guide wall body 8, a first transmission gear 5 and the first lower sliding ring 4 are sequentially axially connected, a first servo motor 6 is arranged on the first upper sliding ring 3, a first motor gear 7 is arranged on the first servo motor 6 and is meshed with the first transmission gear 5, and an upper optical path capable of passing laser is formed in the central axial direction of the optical fiber connector base 2, the first upper sliding ring 3, the first lower sliding ring 4 and the first transmission gear 5;
the inner light guiding wall 8 is a hollow cylinder, the inner wall is a reflective surface, and the upper and lower surfaces are provided with light guiding holes 81 along the central axial direction. The inner wall of the inner light guide wall body 8 can be coated with a reflective coating, can be attached with a reflective film and can also be provided with a reflective mirror surface, thereby realizing light reflection.
The mounting support 9 is mounted on the lower surface of the inner light guide wall body 8, the laser reflector 10 and the second upper sliding ring 11 are mounted on the mounting support 9, the second lower sliding ring 12 is axially connected with the second upper sliding ring 11 and can rotate relative to the second upper sliding ring 11, the second transmission gear 13 is sleeved on the second lower sliding ring 12, the second servo motor 14 is mounted on the second upper sliding ring 11, the second motor gear 15 is mounted on the second servo motor 14 and meshed with the second transmission gear 13, the laser welding and cutting gun 16 is mounted on the second lower sliding ring 12, and lower light paths capable of passing laser are axially formed by the centers of the second upper sliding ring 11, the second lower sliding ring 12, the second transmission gear 13 and the second motor gear 15;
the upper light path is communicated with the light guide hole 81 on the upper surface of the inner light guide wall body 8, the lower light path is vertical to the central axial direction of the inner light guide wall body 8, the laser reflector 10 can reflect the laser emitted from the light guide hole 81 on the lower surface of the inner light guide wall body 8 to the lower light path, and the lower light path is communicated with the laser inlet of the laser welding and cutting gun 16.
Wherein, laser fiber connector 1 connects laser fiber, the light path is penetrated into to the laser of transmission among the laser fiber, it leads into interior light guide wall body 8 inside from the light guiding hole 81 of interior light guide wall body 8 upper surface to go up the light path, the laser jets out by the light guiding hole 81 of interior light guide wall body 8 lower surface after through reflection, refraction in interior light guide wall body 8, laser mirror 10 is located the light outgoing direction of light guiding hole 81 of interior light guide wall body 8 lower surface, the laser is shone and is reflected to light path down after laser mirror 10, light path is again with leading-in laser to the laser inlet of laser welding and cutting rifle 16 down for laser welding and cutting rifle 16 carries out the laser welding and cutting operation. During the welding and cutting operation of the laser welding and cutting gun 16, the laser welding and cutting gun 16 can operate in two freedom (namely two-axis) directions by controlling the first servo motor 6 and the second servo motor 14. Meanwhile, the first upper sliding ring 3, the first lower sliding ring 4, the second upper sliding ring 11 and the second lower sliding ring 12 can be used for connecting water, electricity and gas pipelines.
In order to adjust the levelness of the optical fiber connector seat 2 conveniently, in the embodiment, the two-axis laser welding and cutting device further comprises a thread adjusting sleeve 17 and a plurality of thread adjusting seats 18;
a plurality of screw thread adjusting bases 18 are arranged between the optical fiber connector base 2 and the first upper sliding ring 3, the screw thread adjusting bases 18 are fixed on the upper surface of the first upper sliding ring 3, and the screw thread adjusting bases 18 are sleeved with the optical fiber connector base 2 through screw thread adjusting sleeves 17. The number of the threaded adjusting seats 18 is three, for example, and the three threaded adjusting seats 18 are uniformly distributed around the central circumference of the first upper sliding ring 3, and the optical fiber connector seat 2 can be made to be in a horizontal state by adjusting the height of each threaded adjusting sleeve 17.
In order to facilitate the installation of the first servo motor 6 and the second servo motor 14, in the present embodiment, the first upper slip ring 3 extends laterally with the first mounting plate 31, the first servo motor 6 is installed on the first mounting plate 31, the second upper slip ring 11 extends laterally with the second mounting plate 41, and the second servo motor 14 is installed on the second mounting plate 41.
In order to facilitate disassembly and maintenance, in the present embodiment, the mounting bracket 9 is fixedly connected to the lower surface of the inner light guiding wall body 8 through a bolt, and the second upper sliding ring 11 is fixedly connected to the mounting bracket 9 through a bolt.
In this way, the utility model discloses a diaxon laser welding cuts device passes through the screw thread adjusting collar and adjusts laser fiber splice position, makes laser penetrate into interior leaded light wall body via last light path, reflects to the laser welding cutting torch by laser reflector again, owing to need not laser welding cutting torch and directly links light to the sliding ring can change water, electricity, gas circuit pipeline, thereby can avoid optic fibre and water, electricity, gas circuit pipeline to take place to drag, twine.
The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.
Claims (6)
1. A two-axis laser welding and cutting device is characterized by comprising a laser optical fiber connector, an optical fiber connector seat, a first upper sliding ring, a first lower sliding ring, a first transmission gear, a first servo motor, a first motor gear, an inner light guide wall body, a mounting support, a laser reflector, a second upper sliding ring, a second lower sliding ring, a second transmission gear, a second servo motor, a second motor gear and a laser welding and cutting gun;
the laser optical fiber connector is arranged on an optical fiber connector seat, the optical fiber connector seat is arranged on the upper surface of a first upper sliding ring, a first lower sliding ring is axially connected with the first upper sliding ring and can rotate relative to the first upper sliding ring, the inner light guide wall body, a first transmission gear and a first lower sliding ring are sequentially and axially connected, a first servo motor is arranged on the first upper sliding ring, a first motor gear is arranged on the first servo motor and is meshed with a first transmission gear, and an upper optical path capable of passing laser is axially formed in the centers of the optical fiber connector seat, the first upper sliding ring, the first lower sliding ring and the first transmission gear;
the laser welding and cutting gun comprises an inner light guide wall body, a mounting support, a laser reflector, a second upper sliding ring, a second lower sliding ring, a second upper sliding ring, a second transmission gear, a second servo motor, a second motor gear, a second lower sliding ring, a second upper sliding ring, a second servo motor, a second transmission gear, a second upper sliding ring, a second motor gear, a second upper sliding ring, a second lower sliding ring, a second upper sliding ring, a second motor gear, a second transmission gear, a second motor gear, a second upper sliding ring, a second lower sliding ring, a second transmission gear and a second motor gear, wherein the inner light guide wall body is in a hollow cylinder shape, the inner wall of the inner light guide wall body is a reflecting surface, the upper surface and the lower surface are provided with light guide holes along the central axial direction;
the laser welding and cutting gun comprises an inner light guide wall body, an upper light path, a lower light path, a laser reflector and a laser welding and cutting gun, wherein the upper light path is communicated with a light guide hole in the upper surface of the inner light guide wall body, the lower light path is axially vertical to the center of the inner light guide wall body, the laser reflector can reflect laser emitted from the light guide hole in the lower surface of the inner light guide wall body to the lower light path, and the lower light path.
2. The two-axis laser welding and cutting apparatus of claim 1 further comprising a threaded adjustment sleeve and a plurality of threaded adjustment seats;
a plurality of screw thread adjusting bases are arranged between the optical fiber connector base and the first upper sliding ring, the screw thread adjusting bases are fixed on the upper surface of the first upper sliding ring, and the screw thread adjusting bases are sleeved with the optical fiber connector base through screw thread adjusting sleeves.
3. The two-axis laser welding and cutting apparatus of claim 2, wherein a first mounting plate extends laterally from said first upper slip ring, and said first servomotor is mounted to said first mounting plate.
4. The two-axis laser welding and cutting apparatus of claim 3, wherein a second mounting plate extends laterally from said second upper slip ring, and said second servomotor is mounted to said second mounting plate.
5. The two-axis laser welding and cutting apparatus according to claim 1, wherein the mounting bracket is fixedly connected to the lower surface of the inner light guide wall by a bolt.
6. The two-axis laser welding and cutting apparatus of claim 1, wherein the second upper slip ring is fixedly connected to the mounting bracket by bolts.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202021863084.9U CN212552270U (en) | 2020-08-31 | 2020-08-31 | Diaxon laser welding cuts device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202021863084.9U CN212552270U (en) | 2020-08-31 | 2020-08-31 | Diaxon laser welding cuts device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN212552270U true CN212552270U (en) | 2021-02-19 |
Family
ID=74621780
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202021863084.9U Active CN212552270U (en) | 2020-08-31 | 2020-08-31 | Diaxon laser welding cuts device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN212552270U (en) |
-
2020
- 2020-08-31 CN CN202021863084.9U patent/CN212552270U/en active Active
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN110026681B (en) | Pipeline laser welding machine | |
| JPS58217283A (en) | Industrial robot | |
| US9782063B2 (en) | Optical coupling efficiency detection assembly and method of assembling the same | |
| US20020149757A1 (en) | Polarization vector alignment for interference lithography patterning | |
| ES2961479T3 (en) | A laser processing apparatus and corresponding laser processing method | |
| CN111889884A (en) | Diaxon laser welding cuts device | |
| US20210231880A1 (en) | Dual port optical switching apparatus | |
| CN212552270U (en) | Diaxon laser welding cuts device | |
| CN112609236A (en) | Automatic optical fiber crystal preparation system utilizing laser annular heating | |
| CN217521390U (en) | Laser-assisted large-mode-field polarization-maintaining optical fiber cutting device | |
| CN208399756U (en) | Laser splitting device | |
| CN113231741B (en) | Laser welding device and method based on annular facula coaxial wire feeding | |
| CN214458431U (en) | Automatic optical fiber crystal preparation system utilizing laser annular heating | |
| CN112505825A (en) | Optical fiber jitter control system | |
| EP0178107A1 (en) | Coating optical fibres | |
| CN210548861U (en) | Pipeline laser-beam welding machine | |
| KR101008901B1 (en) | Apparatus for processing light guide plate with laser | |
| US6854293B2 (en) | Method for fusion splicing of optical fibers | |
| JP2024502156A (en) | Method and device for compensating ultrashort pulse laser rotation direction error, and machine tool | |
| CN210548860U (en) | Prevent winding laser-beam welding machine of optic fibre | |
| US5000553A (en) | Apparatus for the alignment of a laser beam inside an articulated tubular arm | |
| CN114473182B (en) | Laser head capable of freely rotating | |
| CN1657875A (en) | Level gauge | |
| CN219402786U (en) | Liquid guide laser coupling device | |
| CN217316462U (en) | Laser processing head |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CP03 | Change of name, title or address | ||
| CP03 | Change of name, title or address |
Address after: 610000 Chenghua District, Chengdu City, Sichuan Province, No. 7 Chengji Road, Longtan Industrial Park Patentee after: Chengdu fumos Industrial Technology Co.,Ltd. Address before: No.7, Chengji Road, Longtan Industrial Park, Chenghua District, Chengdu, Sichuan 610052 Patentee before: CHENGDU FAMOUS INTELLIGENT SYSTEM INTEGRATION SERVICE Co.,Ltd. |
|
| CP03 | Change of name, title or address | ||
| CP03 | Change of name, title or address |
Address after: Room 101, Building 11, No. 333 Yijian West Road, Xinglong Town, Zhongjiang County, Deyang City, Sichuan Province, 618100 Patentee after: Sichuan Fumosi Industrial Technology Co.,Ltd. Address before: 610000 Chenghua District, Chengdu City, Sichuan Province, No. 7 Chengji Road, Longtan Industrial Park Patentee before: Chengdu fumos Industrial Technology Co.,Ltd. |