CN112475593A

CN112475593A - Laser processing platform convenient to processing

Info

Publication number: CN112475593A
Application number: CN202011459261.1A
Authority: CN
Inventors: 朱波
Original assignee: Individual
Current assignee: Jinan Xinjian Motor Co ltd
Priority date: 2020-12-13
Filing date: 2020-12-13
Publication date: 2021-03-12
Anticipated expiration: 2040-12-13
Also published as: CN112475593B

Abstract

The invention relates to the technical field of laser processing, in particular to a laser processing table convenient for processing, which comprises a base, wherein the upper surface of the base is provided with a placing mechanism, the upper surface of the base positioned outside the placing mechanism is provided with a supporting mechanism, the supporting mechanism is provided with a moving mechanism, the lower end of the moving mechanism is fixedly provided with a laser processing mechanism, the supporting mechanism is provided with two fixing mechanisms, when in use, a screw rod can be driven by a second driving motor and the second driving motor to rotate, the screw rod can drive a mounting seat to move by matching with a screw rod nut, the mounting seat can drive a laser output head to synchronously move, so that the position of the laser output head can be adjusted, meanwhile, a first driving motor can drive a rotating seat to rotate, and the rotating seat can drive a processed piece placed on the surface of the rotating seat to rotate, so that the laser output head can process the whole surface of the workpiece.

Description

Laser processing platform convenient to processing

Technical Field

The invention relates to the technical field of laser processing, in particular to a laser processing table convenient to process.

Background

Laser engraving is the most common application of laser systems. Laser machining can be broadly classified into laser thermal machining and photochemical reaction machining according to the mechanism of interaction between a laser beam and a material. Laser thermal processing refers to finishing a processing process by utilizing a thermal effect generated by projecting a laser beam on the surface of a material, and comprises laser welding, laser engraving and cutting, surface modification, laser marking, laser drilling, micro processing and the like.

When the existing laser processing table is used, the angle and the position of a workpiece need to be adjusted, and the adjustment can be generally carried out only by adjusting the position of the laser output head, so that the processing position of the workpiece can be improved vertically and horizontally.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a laser processing table convenient for processing.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a laser processing platform convenient to processing, includes a base, the upper surface of base is provided with a placement machine and constructs, is located the base upper surface in the placement machine outside is provided with a supporting mechanism, supporting mechanism is provided with a moving mechanism, moving mechanism's lower extreme fixed mounting has a laser processing mechanism, the last two fixed establishment that are provided with of supporting mechanism, two fixed establishment's inside all is provided with a coupling mechanism.

Specifically, the placing mechanism comprises a rotating groove, the rotating groove is formed in the upper surface of the base, the rotating groove is connected with a rotating seat in a rotating mode, the upper end of the rotating seat penetrates through a notch of the rotating groove and extends upwards to the outside of the base, a first annular groove is formed in the bottom of the rotating groove, a second annular groove is formed in the lower surface of the rotating seat corresponding to the position of the first annular groove, a plurality of first balls are connected into the first annular groove and the second annular groove in a rolling mode, a mounting groove is formed in the groove wall of the rotating groove, a first driving motor is fixedly mounted at the bottom of the mounting groove, the output end of the first driving motor is fixedly connected with a first driving rod through a coupler, a transmission gear is fixedly connected at the upper end of the first driving rod, and a gear ring is fixedly connected on the outer side wall of the rotating seat corresponding to the position of the transmission gear, the transmission gear is meshed with the gear ring.

Specifically, the supporting mechanism comprises a first T-shaped chute which is annularly arranged, the first T-shaped chute is arranged on the upper surface of the base, a first T-shaped sliding block is connected in the first T-shaped sliding groove in a sliding manner, the upper end of the first T-shaped sliding block penetrates and extends out of the base, the upper surface of the first T-shaped sliding block, which is positioned outside the base, is fixedly connected with a supporting plate which is arranged annularly, the upper end of the supporting plate is fixedly connected with two first supporting rods, a second supporting rod is fixedly connected between the top end groove walls of the opposite sides of the two first supporting rods together, a third annular groove is formed in the groove bottom of the first T-shaped sliding groove, and a fourth annular groove is formed in the lower surface of the first T-shaped sliding block corresponding to the third annular groove, and a plurality of second balls are connected into the third annular groove and the fourth annular groove in a rolling mode.

Specifically, the moving mechanism comprises a mounting seat, a mounting hole is formed in the mounting seat in a penetrating manner, the mounting seat is sleeved on the rod wall of the second support rod through the mounting hole, a second T-shaped sliding block is fixedly connected to the bottom hole wall of the mounting hole, a second T-shaped sliding groove is formed in the lower surface of the second support rod corresponding to the position of the second T-shaped sliding block, the second T-shaped sliding block is connected in the second T-shaped sliding groove in a sliding manner, a lead screw nut is fixedly mounted on the mounting seat, a lead screw is connected to the lead screw nut in a threaded manner, two ends of the lead screw extend out of the mounting seat in a penetrating manner, a first bearing is fixedly sleeved at each end of the lead screw outside the mounting seat, the two first bearings are fixedly mounted on the two first support rods respectively, one end of the lead screw extends out of the two first support rods in a penetrating manner, one end of the screw rod, which is positioned outside the two first supporting rods, is fixedly connected with a third bevel gear, the first supporting rods, which are positioned below the third bevel gear, are fixedly connected with a second driving motor, the output end of the second driving motor is fixedly connected with a fourth bevel gear through a coupler, and the third bevel gear is meshed with the fourth bevel gear.

Specifically, laser beam machining mechanism includes that one drives actuating cylinder, it drives actuating cylinder fixed connection at the lower surface of mount pad, the output swing joint who drives actuating cylinder has a piston rod, a mounting panel of lower extreme fixedly connected with of piston rod, a laser output head of lower extreme fixedly connected with of mounting panel.

The fixed establishment all includes a screw hole, two the screw hole all runs through to be seted up in the backup pad, corresponds two thread groove has been seted up to the base upper surface of thread hole position two thread groove and two thread hole common threaded connection have a threaded rod, two the upper end of threaded rod all runs through to extend to the backup pad outer and a rotation handle of fixedly connected with, fixedly connected with one deck antiskid sleeve on the lateral wall of rotation handle, set up a lift groove that is the annular setting on the pore wall of screw hole, correspond fixed cover has been connect one on the threaded rod pole wall of lift groove position and has been the elevator that the annular set up, elevator sliding connection is in the lift inslot.

Specifically, each of the two connecting mechanisms comprises a connecting hole, the two connecting holes are respectively penetrated and arranged on the groove walls on the opposite sides of the two lifting grooves, the hole walls of the two connecting holes on the sides far away from the lifting grooves are respectively communicated with the inner ring of the supporting plate, a sliding groove is respectively arranged on the hole walls of the two connecting holes, a sliding block is respectively connected in the two sliding grooves in a sliding manner, the lower ends of the two sliding blocks are respectively penetrated and extended into the connecting holes and are fixedly connected with a connecting rod, one end of each of the two connecting rods is penetrated and extended into the lifting grooves and is arranged in an arc shape, a fixing hole is respectively penetrated and arranged on each of the two sliding blocks, a fixing rod is respectively connected in the two fixing holes in a sliding manner, the two ends of each fixing rod are respectively and fixedly connected on the opposite groove walls of the two sliding, one end of each of the two springs is abutted against the groove wall of each of the two sliding grooves, the other end of each of the two springs is abutted against the side wall of each of the two sliding blocks, and a clamping tooth ring is fixedly connected to the outer side wall of the rotating seat corresponding to the position of each of the two connecting holes.

Specifically, the lower surface of the second T-shaped sliding block is fixedly connected with four groups of supporting blocks, each group of supporting blocks comprises two supporting blocks, four rotating shafts are fixedly mounted between the two supporting blocks in each group, a roller is fixedly sleeved on each rotating shaft, and the lower ends of the four rollers are abutted to the inner groove wall of the second T-shaped sliding groove.

The invention has the beneficial effects that:

(1) when the laser processing table convenient to process is used, the second driving motor can drive the screw rod to rotate, the screw rod can drive the mounting seat to move through matching with the screw rod nut, the mounting seat can drive the laser output head to move synchronously, so that the position of the laser output head can be adjusted, meanwhile, the first driving motor can drive the rotating seat to rotate, and the rotating seat can drive a workpiece placed on the surface of the rotating seat to rotate, so that the laser output head can process all surfaces of the workpiece.

(2) According to the laser processing table convenient to process, the base, the placing mechanism, the supporting mechanism, the moving mechanism, the laser processing mechanism, the fixing mechanism and the connecting mechanism are arranged, when the laser processing table is used, the threaded rod can be rotated by rotating the handle, so that the threaded rod rises and is separated from the threaded groove, meanwhile, the threaded rod can drive the lifting block to rise, the lifting block can push the connecting rod to move by being abutted against the radian of the connecting rod, the connecting rod can be abutted against the latch ring, the supporting plate is abutted against the rotating seat, and therefore the position of a processed part can be adjusted under the condition that the processing position of a laser output head is not changed when the processed part is processed.

(3) According to the laser processing table convenient to process, the base, the placing mechanism, the supporting mechanism, the moving mechanism, the laser processing mechanism, the fixing mechanism and the connecting mechanism are arranged, when the laser processing table is used, the threaded rod can be rotated by rotating the handle, so that the threaded rod descends and is in threaded connection with the threaded hole and the threaded groove, the supporting plate can be fixed originally, and the supporting plate is prevented from moving randomly.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of a laser processing station for facilitating processing according to the present invention;

FIG. 2 is a schematic view of an installation structure of a moving mechanism and a laser processing mechanism in a laser processing table for facilitating processing according to the present invention;

FIG. 3 is a schematic view of an installation structure of a supporting mechanism and a moving mechanism in a laser processing table for facilitating processing according to the present invention;

FIG. 4 is a schematic view of an installation structure of a fixing mechanism and a connecting mechanism in a laser processing table for facilitating processing according to the present invention;

FIG. 5 is a schematic structural diagram of a base and a placement mechanism of a laser processing station for facilitating processing according to the present invention;

FIG. 6 is an enlarged view of portion A of FIG. 3 of a laser machining station for facilitating machining in accordance with the present invention;

FIG. 7 is an enlarged view of portion B of the laser processing station of FIG. 4 for facilitating processing in accordance with the present invention;

fig. 8 is an enlarged schematic structural view of a portion C of the laser processing table of fig. 5 for facilitating processing according to the present invention.

In the figure: 1. a base; 2. a placement mechanism; 21. a rotating groove; 22. a rotating seat; 23. a first annular groove; 24. a second annular groove; 25. a first ball bearing; 26. mounting grooves; 27. a first drive motor; 28. a first drive lever; 29. a transmission gear; 210. a gear ring; 3. a support mechanism; 31. a first T-shaped chute; 32. a first T-shaped slider; 33. a first support bar; 34. a second support bar; 35. a third annular groove; 36. a fourth annular groove; 37. a second ball bearing; 38. a support plate; 4. a moving mechanism; 41. a mounting seat; 42. mounting holes; 43. a second T-shaped slider; 44. a second T-shaped chute; 45. a screw rod; 46. a first bearing; 47. a third bevel gear; 48. a second drive motor; 49. a fourth bevel gear; 410. a support block; 411. a rotating shaft; 412. a roller; 413. a feed screw nut; 5. a laser processing mechanism; 51. a driving cylinder; 52. a piston rod; 53. mounting a plate; 54. a laser output head; 6. a fixing mechanism; 61. a threaded hole; 62. a thread groove; 63. a threaded rod; 64. rotating the handle; 65. an anti-slip sleeve; 66. a lifting groove; 67. a lifting block; 7. a connecting mechanism; 71. connecting holes; 72. a chute; 73. a slider; 74. a connecting rod; 75. a fixing hole; 76. fixing the rod; 77. a spring; 78. a snap ring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the laser processing table convenient for processing according to the present invention comprises a base 1, a placing mechanism 2 is disposed on the upper surface of the base 1, a supporting mechanism 3 is disposed on the upper surface of the base 1 outside the placing mechanism 2, the supporting mechanism 3 is provided with a moving mechanism 4, a laser processing mechanism 5 is fixedly mounted at the lower end of the moving mechanism 4, two fixing mechanisms 6 are disposed on the supporting mechanism 3, a connecting mechanism 7 is disposed inside each of the two fixing mechanisms 6, the moving mechanism 4 can drive the laser processing mechanism 5 to perform position adjustment during use, and the rotating mechanism 2 can adjust the placing angle of a workpiece, so that the laser processing mechanism 5 can process the whole surface of the workpiece, and the fixing mechanism 6 can release the fixing of the supporting mechanism 3, meanwhile, the fixing mechanism 6 can push the connecting mechanism 7 to be connected with the placing mechanism 2, so that the rotating mechanism 2 can drive the supporting mechanism 3, the moving mechanism 4 and the laser processing mechanism 5 to synchronously rotate, the laser processing mechanism 5 can adjust the position of the workpiece during processing, and other processing is convenient for the workpiece.

Specifically, the placing mechanism 2 comprises a rotating groove 21, the rotating groove 21 is arranged on the upper surface of the base 1, the rotating seat 22 is rotatably connected inside the rotating groove 21, the upper end of the rotating seat 22 penetrates through the notch of the rotating groove 21 and extends upwards to the outside of the base 1, a first annular groove 23 is formed in the bottom of the rotating groove 21, a second annular groove 24 is formed in the lower surface of the rotating seat 22 corresponding to the position of the first annular groove 23, a plurality of first balls 25 are connected in the first annular groove 23 and the second annular groove 24 in a rolling manner, an installation groove 26 is formed in the wall of the rotating groove 21, a first driving motor 27 is fixedly installed at the bottom of the installation groove 26, the output end of the first driving motor 27 is fixedly connected with a first driving rod 28 through a coupler, the upper end of the first driving rod 28 is fixedly connected with a transmission gear 29, a gear ring 210 is fixedly connected on the outer side wall of the rotating seat 22 corresponding to, the transmission gear 29 is engaged with the gear ring 210, the moving mechanism 4 includes a mounting seat 41, a mounting hole 42 is formed through the mounting seat 41, the mounting seat 41 is sleeved on the rod wall of the second support rod 34 through the mounting hole 42, a second T-shaped slider 43 is fixedly connected to the bottom end hole wall of the mounting hole 42, a second T-shaped chute 44 is formed on the lower surface of the second support rod 34 corresponding to the position of the second T-shaped slider 43, the second T-shaped slider 43 is slidably connected in the second T-shaped chute 44, a lead screw nut 413 is fixedly installed on the mounting seat 41, a lead screw 45 is connected to the lead screw nut 413 through a thread, two ends of the lead screw 45 extend to the outside of the mounting seat 41, two first bearings 46 are fixedly sleeved at two ends of the lead screw 45 located outside of the mounting seat 41, the two first bearings 46 are respectively and fixedly installed on the two first support rods 33, one end of the lead screw 45 extends to the outside of the two first support rods 33, one end of the screw 45, which is positioned outside the two first supporting rods 33, is fixedly connected with a third bevel gear 47, the first supporting rod 33, which is positioned below the third bevel gear 47, is fixedly connected with a second driving motor 48, the output end of the second driving motor 48 is fixedly connected with a fourth bevel gear 49 through a coupler, the third bevel gear 47 is meshed with the fourth bevel gear 49, the lower surface of the second T-shaped slider 43 is fixedly connected with four groups of supporting blocks 410, each group of supporting blocks 410 comprises two supporting blocks 410, four rotating shafts 411 are fixedly installed between each group of the two supporting blocks 410, a roller 412 is fixedly sleeved on each four rotating shafts 411, the lower ends of the four rollers 412 are abutted against the inner groove wall of the second T-shaped chute 44, the laser processing mechanism 5 comprises a driving cylinder 51, the driving cylinder 51 is fixedly connected to the lower surface of the mounting base 41, the output end of the driving cylinder 51 is movably connected with a piston rod 52, the lower end of the piston rod 52 is fixedly connected with a mounting plate 53, the lower end of the mounting plate 53 is fixedly connected with a laser output head 54, a workpiece is placed on the rotating base 22, then the second driving motor 48 can be started, the second driving motor 48 drives the fourth bevel gear 49 to rotate, the fourth bevel gear 49 drives the screw rod 45 to rotate through meshing with the third bevel gear 47, the screw rod 45 can drive the mounting base 41 to move through matching with the screw rod nut 413 when rotating, the mounting base 41 can drive the second T-shaped sliding block 43 to move in the second T-shaped sliding groove 44 when moving, meanwhile, the second T-shaped sliding block 43 rolls in the second T-shaped sliding groove 44 through the roller 413 when moving, the second T-shaped sliding block 43 can be supported, so that the mounting base 41 can move smoothly, and the driving cylinder 51 can be driven to move synchronously when the mounting base 41 moves, the driving cylinder 51 can drive the piston rod 52 to descend, and when the piston rod 52 descends, the mounting plate 53 and the laser output head 54 are synchronously driven to descend to process the workpiece.

Specifically, the supporting mechanism 3 includes a first T-shaped sliding slot 31 disposed in an annular shape, the first T-shaped sliding slot 31 is disposed on the upper surface of the base 1, a first T-shaped sliding block 32 is slidably connected in the first T-shaped sliding slot 31, the upper end of the first T-shaped sliding block 32 extends out of the base 1, a supporting plate 38 disposed in an annular shape is fixedly connected to the upper surface of the first T-shaped sliding block 32 located outside the base 1, two first supporting rods 33 are fixedly connected to the upper end of the supporting plate 38, a second supporting rod 34 is fixedly connected between the top end groove walls of the opposite sides of the two first supporting rods 33, a third annular groove 35 is disposed at the bottom of the first T-shaped sliding slot 31, a fourth annular groove 36 is disposed on the lower surface of the first T-shaped sliding block 32 corresponding to the position of the third annular groove 35, a plurality of second balls 37 are rotatably connected in the third annular groove 35 and the fourth annular groove 36, the two fixing mechanisms 6 respectively comprise a threaded hole 61, the two threaded holes 61 are respectively arranged on the supporting plate 38 in a penetrating way, the upper surface of the base 1 corresponding to the positions of the two threaded holes 61 is provided with two threaded grooves 62, the two threaded grooves 62 and the two threaded holes 61 are internally and jointly in threaded connection with a threaded rod 63, the upper ends of the two threaded rods 63 are respectively arranged outside the supporting plate 38 in a penetrating way and fixedly connected with a rotating handle 64, the outer side wall of the rotating handle 64 is fixedly connected with an anti-skidding sleeve 65, the hole wall of the threaded hole 61 is provided with an annular lifting groove 66, the rod wall of the threaded rod 63 corresponding to the position of the lifting groove 66 is fixedly sleeved with an annular lifting block 67, the lifting block 67 is connected in the lifting groove 66 in a sliding way, the two connecting mechanisms 7 respectively comprise a connecting hole 71, the two connecting holes 71 are respectively arranged on the groove walls of, the hole walls of the two connecting holes 71 far away from the lifting groove 66 are communicated with the inner ring of the supporting plate 38, the hole walls of the two connecting holes 71 are respectively provided with a sliding groove 72, the two sliding grooves 72 are respectively connected with a sliding block 73 in a sliding manner, the lower ends of the two sliding blocks 73 are respectively extended into the connecting holes 71 in a penetrating manner and are fixedly connected with a connecting rod 74, one end of each connecting rod 74 is respectively extended into the lifting groove 66 in an arc shape, the two sliding blocks 73 are respectively provided with a fixing hole 75 in a penetrating manner, the two fixing holes 75 are respectively connected with a fixing rod 76 in a sliding manner, the two ends of each fixing rod 76 are respectively fixedly connected with the opposite groove walls of the two sliding grooves 72, the rod walls of the two fixing rods 76 are respectively sleeved with a spring 77, one end of each spring 77 is respectively abutted against the groove walls of the two sliding grooves 72, and the other ends, a latch ring 78 is fixedly connected to the outer side wall of the rotating seat 22 corresponding to the two connecting holes 71, the first driving motor 27 can be started, the first driving motor 27 drives the transmission gear 29 to rotate through the first driving rod 28, the transmission gear 29 can drive the rotating seat 22 to rotate through meshing with the gear ring 210, so as to drive a workpiece placed on the surface of the rotating seat 22 to rotate, then the threaded rod 63 can be rotated through the rotating handle 64, the threaded rod 63 is in threaded connection with the threaded groove 62 and the threaded hole 61, so as to be lifted until the threaded rod 63 is separated from the threaded groove 62, at this time, the fixation between the supporting plate 38 and the base 1 can be released, at this time, the supporting plate 38 can rotate through the first T-shaped sliding groove 31 and the first T-shaped sliding block 32, and the lifting block 67 is lifted to be against the radian of the connecting rod 74, the connecting rod 74 is pushed to move through the radian of the connecting rod 74, so that the connecting rod 74 can be meshed with the latch ring 78, and further, the rotating seat 22 and the supporting plate 38 can be connected, and therefore, the position of a workpiece can be adjusted under the condition that the processing position of the laser output head 54 is not changed when the workpiece is processed.

When in use, a workpiece is firstly placed on the rotating seat 22, then the second driving motor 48 can be started, the second driving motor 48 drives the fourth bevel gear 49 to rotate, the fourth bevel gear 49 drives the screw rod 45 to rotate through meshing with the third bevel gear 47, when the screw rod 45 rotates, the mounting seat 41 can be driven to move through matching with the screw rod nut 413, when the mounting seat 41 moves, the second T-shaped slide block 43 is driven to move in the second T-shaped slide groove 44, simultaneously the second T-shaped slide block 43 rolls in the second T-shaped slide groove 44 through the roller 413 when moving, the second T-shaped slide block 43 can be supported, so that the mounting seat 41 can move smoothly, when the mounting seat 41 moves, the driving cylinder 51 can drive the driving cylinder 51 to move synchronously, and the driving cylinder 51 can drive the piston rod 52 to descend, and when the piston rod 52 descends, the mounting plate 53 and the laser output head 54 can be synchronously driven to descend to process the workpiece, meanwhile, the first driving motor 27 can be started, the first driving motor 27 drives the transmission gear 29 to rotate through the first driving rod 28, the transmission gear 29 can drive the rotating seat 22 to rotate through meshing with the gear ring 210, so that a workpiece placed on the surface of the rotating seat 22 can be driven to rotate, then the threaded rod 63 can be rotated through the rotating handle 64, the threaded rod 63 is connected with the threaded groove 62 and the threaded hole 61 through threads, so that the threaded rod 63 can ascend until the threaded rod 63 is separated from the threaded groove 62, at the moment, the fixing between the supporting plate 38 and the base 1 can be released, at the moment, the supporting plate 38 can rotate through the first T-shaped sliding groove 31 and the first T-shaped sliding block 32, the lifting block 67 ascends to be abutted against the radian of the connecting rod 74, and pushes the connecting rod 74 to move through the radian of the connecting rod 74, so that the connecting rod 74 can be meshed with, the connection between the rotary base 22 and the support plate 38 is further provided so that the position of the workpiece can be adjusted while the machining position of the laser output head 54 is maintained during machining of the workpiece.

The invention has the beneficial effects that:

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a laser processing platform convenient to processing, includes a base (1), its characterized in that, the upper surface of base (1) is provided with one and places mechanism (2), is located base (1) upper surface in the mechanism (2) outside of placing is provided with a supporting mechanism (3), supporting mechanism (3) are provided with a moving mechanism (4), the lower extreme fixed mounting of moving mechanism (4) has a laser processing mechanism (5), be provided with two fixed establishment (6) on supporting mechanism (3), the inside of two fixed establishment (6) all is provided with a coupling mechanism (7).

2. A laser processing station as claimed in claim 1, characterized in that: place mechanism (2) including a rotation groove (21), the upper surface at base (1) is seted up in rotation groove (21), the inside of rotating groove (21) is rotated and is connected with one and rotates seat (22), the upper end of rotating seat (22) runs through the notch of rotating groove (21) and upwards extends to outside base (1), a first ring channel (23) have been seted up to the tank bottom of rotating groove (21), correspond a second ring channel (24) have been seted up to rotation seat (22) lower surface of first ring channel (23) position, roll connection has a plurality of first ball (25) jointly in first ring channel (23) and second ring channel (24), a mounting groove (26) has been seted up on the tank wall of rotation groove (21), the tank bottom fixed mounting of mounting groove (26) has a first driving motor (27), the output of first driving motor (27) passes through a first actuating lever (28) of shaft coupling fixedly connected with The upper end of the first driving rod (28) is fixedly connected with a transmission gear (29), the outer side wall of the rotating seat (22) corresponding to the position of the transmission gear (29) is fixedly connected with a gear ring (210), and the transmission gear (29) is meshed with the gear ring (210).

3. A laser processing station as claimed in claim 1, characterized in that: the supporting mechanism (3) comprises a first T-shaped sliding groove (31) which is annularly arranged, the upper surface of the base (1) is arranged on the first T-shaped sliding groove (31), a first T-shaped sliding block (32) is connected in the first T-shaped sliding groove (31) in a sliding mode, the upper end of the first T-shaped sliding block (32) penetrates through the base (1) and extends out of the base, a supporting plate (38) which is annularly arranged is fixedly connected to the upper surface of the first T-shaped sliding block (32) which is positioned outside the base (1), two first supporting rods (33) are fixedly connected to the upper end of the supporting plate (38), a second supporting rod (34) is fixedly connected between the top end groove walls of one opposite side of the two first supporting rods (33) together, a third annular groove (35) is formed in the groove bottom of the first T-shaped sliding groove (31), a fourth annular groove (36) is formed in the lower surface of the first T-shaped sliding block (32) corresponding to the position of the third annular groove (, and a plurality of second balls (37) are connected in the third annular groove (35) and the fourth annular groove (36) in a rolling manner.

4. A laser processing station as claimed in claim 1, characterized in that: the moving mechanism (4) comprises a mounting seat (41), a mounting hole (42) is formed in the mounting seat (41) in a penetrating mode, the mounting seat (41) is sleeved on the rod wall of the second supporting rod (34) through the mounting hole (42), a second T-shaped sliding block (43) is fixedly connected to the hole wall of the bottom end of the mounting hole (42), a second T-shaped sliding groove (44) is formed in the lower surface, corresponding to the second T-shaped sliding block (43), of the second supporting rod (34), the second T-shaped sliding block (43) is connected to the second T-shaped sliding groove (44) in a sliding mode, a lead screw nut (413) is fixedly mounted on the mounting seat (41), a lead screw (45) is connected to the inner thread of the lead screw nut (413), the two ends of the lead screw (45) extend out of the mounting seat (41) in a penetrating mode, a first bearing (46) is fixedly sleeved at the two ends, located outside the mounting seat (41), of the lead screw (45), two first bearing (46) are fixed mounting respectively on two first bracing pieces (33), outside wherein one end of lead screw (45) runs through and extends to two first bracing pieces (33), lead screw (45) are located two outer one end fixedly connected with third bevel gear (47) of first bracing piece (33), are located fixedly connected with a second driving motor (48) on first bracing piece (33) of third bevel gear (47) below position, the output of second driving motor (48) passes through a shaft coupling fixedly connected with fourth bevel gear (49), third bevel gear (47) and fourth bevel gear (49) mesh mutually.

5. A laser processing station as claimed in claim 1, characterized in that: laser beam machining mechanism (5) are including one drive actuating cylinder (51), drive actuating cylinder (51) fixed connection is at the lower surface of mount pad (41), the output swing joint who drives actuating cylinder (51) has a piston rod (52), mounting panel (53) of the lower extreme fixedly connected with of piston rod (52), laser output head (54) of the lower extreme fixedly connected with of mounting panel (53).

6. A laser processing station as claimed in claim 1, characterized in that: two fixing mechanism (6) all include a screw hole (61), two screw hole (61) all run through and set up in backup pad (38), correspond two base (1) upper surface of screw hole (61) position has seted up two thread groove (62), two common threaded connection has a threaded rod (63) in thread groove (62) and two screw hole (61), two the upper end of threaded rod (63) all runs through and extends to outside backup pad (38) and fixedly connected with a rotation handle (64), fixedly connected with one deck antiskid sleeve (65) on the lateral wall of rotation handle (64), set up one on the pore wall of screw hole (61) and be the lift groove (66) of annular setting, correspond fixed cover on threaded rod (63) the rod wall of lift groove (66) position has connect one and be elevator (67) of annular setting, the lifting block (67) is connected in the lifting groove (66) in a sliding manner.

7. A laser processing station as claimed in claim 1, characterized in that: the two connecting mechanisms (7) respectively comprise a connecting hole (71), the two connecting holes (71) are respectively arranged on the wall of one opposite side of the two lifting grooves (66) in a penetrating manner, the wall of one side, far away from the lifting grooves (66), of each connecting hole (71) is communicated with the inner ring of the supporting plate (38), a sliding groove (72) is respectively arranged on the wall of each connecting hole (71), a sliding block (73) is respectively and slidably connected in each sliding groove (72), the lower ends of the two sliding blocks (73) respectively extend into the connecting holes (71) in a penetrating manner and are fixedly connected with a connecting rod (74), one end of each connecting rod (74) respectively extends into the lifting grooves (66) in an arc-shaped manner, a fixing hole (75) is respectively arranged on the two sliding blocks (73), and a fixing rod (76) is respectively and slidably connected in each fixing hole (75), two the both ends of dead lever (76) are fixed connection respectively on the relative cell wall of two spout (72), two all the cover is equipped with one spring (77) on the pole wall of dead lever (76), two wherein one end of spring (77) offsets in the cell wall of two spout (72) respectively, two the other end of spring (77) offsets in the lateral wall of two sliders (73) respectively, corresponds two fixedly connected with a latch ring (78) on the rotation seat (22) lateral wall of connecting hole (71) position.

8. A laser processing station as claimed in claim 3, characterized in that: the lower surface of the second T-shaped sliding block (43) is fixedly connected with four groups of supporting blocks (410), each group of supporting blocks (410) comprises two supporting blocks (410), four rotating shafts (411) are fixedly mounted between every two supporting blocks (410) in each group, a roller (412) is fixedly sleeved on each rotating shaft (411), and the lower ends of the rollers (412) are abutted to the inner groove wall of the second T-shaped sliding groove (44).