CN114619159A - Numerical control rotary clamping and adjusting equipment for laser pipe cutting machine and working method of numerical control rotary clamping and adjusting equipment - Google Patents

Abstract

The invention discloses numerical control rotary clamping and adjusting equipment for a laser pipe cutting machine, which comprises a base, a first clamping assembly and a pushing assembly, wherein the first clamping assembly is arranged on the outer wall of the top end of the base; a plurality of fixing plates are welded on the outer wall of the top end of the base, an installation cylinder is welded on the outer wall between the fixing plates in a penetrating mode and is communicated with the fixing plates, and a rotating ring is rotatably installed on the outer wall of the installation cylinder; the pushing assembly is convenient to clamp and fix one end of the pipe, and also is convenient to drive the pipe to move and rotate, so that the end, which is moved out of the mounting cylinder, can be cut conveniently, and the cutting efficiency is improved; the first clamping component is arranged, and the pipe is clamped through the balls on the arc-shaped clamping jaw, so that the pipe can be conveniently rotated and moved back and forth, the pipe is only limited in the up-down and left-right directions, the stability of the pipe during cutting is improved, and the cutting efficiency and the cutting effect are further improved.

Description

Numerical control rotary clamping and adjusting equipment for laser pipe cutting machine and working method of numerical control rotary clamping and adjusting equipment

Technical Field

The invention relates to the technical field of applicator equipment, in particular to numerical control rotary clamping and adjusting equipment for a laser pipe cutting machine and a working method thereof.

Background

The laser cutting machine focuses laser emitted from a laser into a laser beam with high power density through an optical path system; the laser beam irradiates the surface of the workpiece to enable the workpiece to reach a melting point or a boiling point, and simultaneously, the high-pressure gas coaxial with the laser beam blows away the molten or gasified metal; however, the numerical control rotary clamping and adjusting device used by the laser pipe cutting machine has a single function, reduces the cutting efficiency of the laser pipe cutting machine, is unstable in clamping pipes, further reduces the cutting efficiency, and is not worth being widely popularized and applied.

Disclosure of Invention

The invention aims to provide a numerical control rotary clamping and adjusting device for a laser pipe cutting machine and a working method thereof, wherein the pushing assembly is arranged to facilitate clamping and fixing of one end of a pipe, drive movement and rotation of the pipe, facilitate cutting of one end moving out of an installation cylinder and improve cutting efficiency; the first clamping component is arranged, and the pipe is clamped through the balls on the arc-shaped clamping jaw, so that the pipe can be conveniently rotated and moved back and forth, the pipe is only limited in the up-down and left-right directions, the stability of the pipe during cutting is improved, and the cutting efficiency and the cutting effect are further improved.

The purpose of the invention can be realized by the following technical scheme:

a numerical control rotary clamping and adjusting device for a laser pipe cutting machine comprises a base, a first clamping assembly and a pushing assembly, wherein the first clamping assembly is arranged on the outer wall of the top end of the base, and the pushing assembly is arranged on the outer wall of the base, which is positioned on one side of the first clamping assembly;

the first clamping assembly comprises fixed plates, an installation cylinder, a rotating ring, sleeves, a splicing pipe, a first lead screw, a first moving block, arc-shaped clamping jaws, a spherical groove, balls, a first gear, an arc-shaped toothed plate, gear teeth, a double-end motor, a rotating shaft and a third gear, wherein the fixed plates are welded on the outer wall of the top end of the base, the installation cylinder is welded on the outer wall between the fixed plates in a penetrating manner, the installation cylinder is communicated with the fixed plates, the rotating ring is rotatably installed on the outer wall of the installation cylinder, the sleeves are welded on the outer wall of the installation cylinder in a penetrating manner, the splicing pipe is spliced on one end of each sleeve positioned in the installation cylinder, the first moving block is fixed on the inner wall of the splicing pipe, the first lead screw is rotatably installed on the inner wall of one side of each sleeve corresponding to the first moving block, the first moving block is connected with the first lead screw in a threaded manner, and the arc-shaped clamping jaws are welded on the other end of the splicing pipe, a plurality of spherical grooves are formed in the outer wall of the arc-shaped clamping jaw, balls are installed in the spherical grooves in a rolling mode, a first gear is sleeved on one end, penetrating through the outer wall of the sleeve, of the first screw rod, and an arc-shaped toothed plate is welded on the outer wall of the rotating ring corresponding to the first gear.

As a further scheme of the invention: the utility model discloses a double-end motor, including base, rotating ring, fixed plate, third gear, double-end motor output shaft, be provided with a plurality of teeth of a cogwheel teeth on the outer wall all around of rotating ring, rotate on the outer wall between the fixed plate and install the pivot, it has the third gear to correspond the teeth of a cogwheel tooth cover on the outer wall of pivot, and third gear and the meshing of teeth of a cogwheel tooth, double-end motor is installed to corresponding the pivot on the outer wall of base top, and the both ends of double-end motor output shaft are connected with the one end of pivot.

As a further scheme of the invention: the pushing assembly comprises a moving groove, a second lead screw, a second rotating motor, a second moving block, a third rotating motor, a rotating cover, an installation disc, a hydraulic cylinder, a third sliding groove, a clamping block and a first clamping jaw, the moving groove is formed in the outer wall of the top end of the base, which is positioned on one side of the fixing plate, the second lead screw is rotatably installed on the inner wall of the moving groove, the second rotating motor is installed on one side of the base corresponding to the second lead screw, one end of the output shaft of the second rotating motor is connected with one end of the second lead screw, the second moving block is sleeved on the outer wall of the second lead screw and is in threaded connection with the second lead screw, the third rotating motor is installed on the outer wall of the top end of the second moving block, the rotating cover is fixed on one end of the output shaft of the third rotating motor, the installation disc is fixed on the outer wall of one side of the rotating cover, and the third sliding groove is formed in a penetrating manner on the outer wall of one side of the installation disc, slidable mounting has the grip block on the inside of third spout, the welding has first clamping jaw on one side of grip block, correspond the grip block on the opposite side of mounting disc and install the pneumatic cylinder, and the one end of pneumatic cylinder telescopic shaft is fixed in the outer wall of grip block.

As a further scheme of the invention: the number of the mounting cylinders, the rotating rings, the rotating shafts and the third gears is two, and the number of the fixing plates is four.

As a further scheme of the invention: the base is located and all welds two fixed ears on the top outer wall of shifting chute both sides, the welding has first guide arm on the outer wall between the fixed ear, the welding has the second slider on the outer wall of second movable block corresponding first guide arm, and second slider and first guide arm sliding connection.

As a further scheme of the invention: a first sliding groove is formed in the inner wall of the sleeve, a first sliding block is welded on the outer wall of the inserting pipe corresponding to the first sliding groove, and the outer wall of the first sliding block is attached to the inner wall of the first sliding groove.

As a further scheme of the invention: the second moving block is welded on the outer wall below the rotating cover, an arc-shaped sliding groove is formed in the outer wall of the arc-shaped seat, an annular sliding block is welded on the outer wall of the rotating cover corresponding to the arc-shaped sliding groove, and the outer wall of the annular sliding block is attached to the inner wall of the arc-shaped sliding groove.

As a further scheme of the invention: and a plurality of stop blocks are fixed on the outer walls of the rotating rings at two sides of the arc toothed plate.

As a further scheme of the invention: when the device is used, the base is firstly fixed on the laser cutting machine through the bolt, the second moving block is moved to one side far away from the fixed plate, one end of the pipe penetrates through the mounting cylinder and abuts against the mounting disc, the hydraulic cylinder is started, and the hydraulic cylinder drives the clamping block to move; the three clamping blocks clamp and fix one end of a pipe, the double-head motor is started simultaneously, the double-head motor drives two rotating shafts to rotate, the rotating shafts drive a third gear to rotate, the third gear is meshed with gear teeth to drive a rotating ring to rotate, the rotating ring drives an arc toothed plate to rotate, the arc toothed plate is meshed with a first gear, the first gear drives a first lead screw to rotate, the first lead screw is matched through a first moving block to drive an inserting pipe to move, the inserting pipe drives an arc clamping jaw to move, the arc clamping jaw drives balls to move, the balls are attached to the outer wall of the pipe, and the pipe is limited and fixed; the second rotating motor is started, the second rotating motor drives the second lead screw to rotate, the second lead screw drives the second moving block to move, the second moving block drives the rotating cover and the mounting disc on the third rotating motor to move, the mounting disc pushes the pipes to move, the pipes outside the mounting cylinder are moved out, the pipes are cut through the laser cutting machine, the third rotating motor is started simultaneously, the third rotating motor drives the rotating cover and the mounting disc to rotate, the pipes are driven to rotate through the first clamping jaw on the mounting disc, and the pipes are rotated to be cut.

The invention has the beneficial effects that: according to the pushing assembly, through the matching of the moving groove, the second lead screw, the second rotating motor, the second moving block, the third rotating motor, the rotating cover, the mounting disc, the hydraulic cylinder, the third sliding groove, the clamping block and the first clamping jaw, one end of a pipe can be clamped and fixed conveniently, the pipe can be driven to move and rotate conveniently, the end which is moved out of the mounting cylinder can be cut conveniently, and the cutting efficiency is improved; the first centre gripping subassembly that sets up, through the fixed plate, an installation section of thick bamboo, the swivel becket, the sleeve pipe, the pipe of pegging graft, first lead screw, first movable block, the arc clamping jaw, spherical groove, the ball, first gear, the arc pinion rack, teeth of a cogwheel tooth, double-end motor, the cooperation of pivot and third gear, ball through on the arc clamping jaw carries out the centre gripping to tubular product, make things convenient for the rotation and the back-and-forth movement of tubular product, only carry on spacingly about the upper and lower of tubular product, stability when having improved the tubular product cutting, cutting efficiency and cutting effect have further been improved, it is practical and perfect relatively.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall front perspective structure of the present invention;

FIG. 2 is a schematic perspective view of an integral first clamping assembly of the present invention;

FIG. 3 is a schematic perspective view of a pushing assembly according to the present invention;

FIG. 4 is a partial perspective view of the pushing assembly of the present invention;

FIG. 5 is a schematic sectional view of the area A in FIG. 2;

in the figure: 1. a base; 2. a second slider; 3. a first clamping assembly; 4. fixing the lug; 5. a first guide bar; 6. a pushing assembly; 7. a first chute; 8. a first slider; 9. a stopper; 10. an arc-shaped seat; 11. an arc-shaped chute; 12. an annular slider; 31. a fixing plate; 32. mounting the cylinder; 33. a rotating ring; 34. a sleeve; 35. inserting a tube; 36. a first lead screw; 37. a first moving block; 38. an arc-shaped clamping jaw; 39. a spherical groove; 310. a ball bearing; 311. a first gear; 312. an arc toothed plate; 313. gear teeth; 314. a double-headed motor; 315. a rotating shaft; 316. a third gear; 61. a moving groove; 62. a second lead screw; 63. a second rotating electrical machine; 64. a second moving block; 65. a third rotating electrical machine; 66. a rotating cover; 67. mounting a disc; 68. a hydraulic cylinder; 69. a third chute; 610. a clamping block; 611. a first jaw.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-5, a numerical control rotary clamping and adjusting device for a laser pipe cutting machine comprises a base 1, a first clamping assembly 3 and a pushing assembly 6, wherein the first clamping assembly 3 is arranged on the outer wall of the top end of the base 1, and the pushing assembly 6 is arranged on the outer wall of the base 1, which is positioned on one side of the first clamping assembly 3;

the first clamping assembly 3 comprises a fixing plate 31, an installation cylinder 32, a rotating ring 33, sleeve pipes 34, a splicing pipe 35, a first screw rod 36, a first moving block 37, an arc-shaped clamping jaw 38, a spherical groove 39, a ball 310, a first gear 311, an arc-shaped toothed plate 312, gear teeth 313, a double-end motor 314, a rotating shaft 315 and a third gear 316, wherein a plurality of fixing plates 31 are welded on the outer wall of the top end of the base 1, the installation cylinder 32 is welded on the outer wall between the fixing plates 31 in a penetrating manner, the installation cylinder 32 is communicated with the fixing plates 31, the rotating ring 33 is rotatably installed on the outer wall of the installation cylinder 32, a plurality of sleeve pipes 34 are welded on the outer wall of the installation cylinder 32 in a penetrating manner, the splicing pipe 35 is spliced on one end of each sleeve pipe 34 positioned in the installation cylinder 32, the first moving block 37 is fixed on the inner wall of each splicing pipe 35, the first screw rod 36 is rotatably installed on the inner wall of one side of each sleeve pipe 34 corresponding to the first moving block 37, and the first screw rod 36 is in threaded connection with the first screw rod 37, the other end of the inserting pipe 35 is welded with the arc-shaped clamping jaw 38, the outer wall of the arc-shaped clamping jaw 38 is provided with a plurality of spherical grooves 39, balls 310 are arranged inside the spherical grooves 39 in a rolling mode, one end, penetrating through the outer wall of the sleeve pipe 34, of the first screw rod 36 is sleeved with the first gear 311, the outer wall of the rotating ring 33 is welded with the arc-shaped toothed plate 312 corresponding to the first gear 311, the structure is simple, the balls 310 on the arc-shaped clamping jaw 38 can be driven to clamp the pipe, the pipe can be limited up and down, left and right, the pipe can be moved and rotated, the stability of the movement and rotation of the pipe is improved, and the pipe is perfect and practical; a plurality of gear teeth 313 are arranged on the peripheral outer wall of the rotating ring 33, a rotating shaft 315 is rotatably mounted on the outer wall between the fixing plates 31, a third gear 316 is sleeved on the outer wall of the rotating shaft 315 corresponding to the gear teeth 313 and is meshed with the gear teeth 313, a double-end motor 314 is mounted on the outer wall of the top end of the base 1 corresponding to the rotating shaft 315, two ends of an output shaft of the double-end motor 314 are connected with one end of the rotating shaft 315, the rotating ring 33 is driven to rotate by the double-end motor 314, normal work of equipment under connection is facilitated, and power is provided for clamping of pipes more perfectly; the number of the mounting cylinder 32, the rotating ring 33, the rotating shaft 315 and the third gear 316 is two, and the number of the fixing plates 31 is four, so that the equipment is perfect and complete, and the normal use of the equipment is facilitated; the inner wall of the sleeve 34 is provided with a first sliding chute 7, the outer wall of the inserting pipe 35 is welded with a first sliding block 8 corresponding to the first sliding chute 7, and the outer wall of the first sliding block 8 is attached to the inner wall of the first sliding chute 7, so that the inserting pipe 35 is stable in movement, the inserting pipe 35 is convenient to limit, and the normal use of the equipment is convenient; a plurality of stoppers 9 are fixed on the outer walls of the rotating ring 33 at the two sides of the arc-shaped toothed plate 312, so that the first gear 311 is limited, and is prevented from being separated from the arc-shaped toothed plate 312, and the rotating ring is practical;

the pushing assembly 6 comprises a moving groove 61, a second lead screw 62, a second rotating motor 63, a second moving block 64, a third rotating motor 65, a rotating cover 66, a mounting disc 67, a hydraulic cylinder 68, a third chute 69, a clamping block 610 and a first clamping jaw 611, the moving groove 61 is formed in the outer wall of the top end of the base 1 on one side of the fixing plate 31, the second lead screw 62 is rotatably mounted on the inner wall of the moving groove 61, the second rotating motor 63 is mounted on one side of the base 1 corresponding to the second lead screw 62, one end of the output shaft of the second rotating motor 63 is connected with one end of the second lead screw 62, the second moving block 64 is sleeved on the outer wall of the second lead screw 62, the second moving block 64 is in threaded connection with the second lead screw 62, the third rotating motor 65 is mounted on the outer wall of the top end of the second moving block 64, the rotating cover 66 is fixed at one end of the output shaft of the third rotating motor 65, the mounting disc 67 is fixed on the outer wall of one side of the rotating cover 66, a third sliding groove 69 is formed in the outer wall of one side of the mounting disc 67 in a penetrating mode, a clamping block 610 is slidably mounted inside the third sliding groove 69, a first clamping jaw 611 is welded on one side of the clamping block 610, a hydraulic cylinder 68 is mounted on the other side of the mounting disc 67 corresponding to the clamping block 610, and one end of a telescopic shaft of the hydraulic cylinder 68 is fixed to the outer wall of the clamping block 610; the outer wall of the second moving block 64, which is located below the rotating cover 66, is welded with the arc-shaped seat 10, the outer wall of the arc-shaped seat 10 is provided with the arc-shaped sliding groove 11, the outer wall of the rotating cover 66 is welded with the annular sliding block 12 corresponding to the arc-shaped sliding groove 11, and the outer wall of the annular sliding block 12 is attached to the inner wall of the arc-shaped sliding groove 11, so that the rotating cover 66 rotates stably, the rotating cover 66 is also conveniently and stably supported, and the rotating cover is perfect; two fixing lugs 4 are welded on the outer wall of the top end of the base 1 located on two sides of the moving groove 61, a first guide rod 5 is welded on the outer wall between the fixing lugs 4, a second sliding block 2 is welded on the outer wall of the second moving block 64 corresponding to the first guide rod 5, and the second sliding block 2 is connected with the first guide rod 5 in a sliding mode, so that the second moving block 64 is stable in moving.

The working principle of the invention is as follows: when the device is used, the base 1 is firstly fixed on a laser cutting machine through bolts, the second moving block 64 is moved to one side far away from the fixed plate 31, one end of a pipe passes through the mounting cylinder 32 and abuts against the mounting disc 67, the hydraulic cylinder 68 is started, and the hydraulic cylinder 68 drives the clamping block 610 to move; the three clamping blocks 610 clamp and fix one end of the pipe, the double-head motor 314 is started simultaneously, the double-head motor 314 drives the two rotating shafts 315 to rotate, the rotating shafts 315 drive the third gear 316 to rotate, the third gear 316 is meshed with the gear teeth 313 to drive the rotating ring 33 to rotate, the rotating ring 33 drives the arc-shaped toothed plate 312 to rotate, the arc-shaped toothed plate 312 is meshed with the first gear 311, the first gear 311 drives the first lead screw 36 to rotate, the first lead screw 36 is matched with the first moving block 37 to drive the inserting pipe 35 to move, the inserting pipe 35 drives the arc-shaped clamping jaw 38 to move, the arc-shaped clamping jaw 38 drives the ball 310 to move, the ball 310 is attached to the outer wall of the pipe, and the pipe is limited and fixed; the second rotating motor 63 is started, the second rotating motor 63 drives the second lead screw 62 to rotate, the second lead screw 62 drives the second moving block 64 to move, the second moving block 64 drives the rotating cover 66 and the mounting disc 67 on the third rotating motor 65 to move, the mounting disc 67 pushes the pipe to move, the pipe moving out of the outer portion of the mounting cylinder 32 is cut by the laser cutting machine, the third rotating motor 65 is started simultaneously, the third rotating motor 65 drives the rotating cover 66 and the mounting disc 67 to rotate, the pipe is driven to rotate through the first clamping jaw 611 on the mounting disc 67, the cutting is rotated, and the cutting efficiency is improved.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. The numerical control rotary clamping and adjusting equipment for the laser pipe cutting machine is characterized by comprising a base (1), a first clamping assembly (3) and a pushing assembly (6), wherein the first clamping assembly (3) is arranged on the outer wall of the top end of the base (1), and the pushing assembly (6) is arranged on the outer wall of the base (1) on one side of the first clamping assembly (3);

the first clamping assembly (3) comprises a fixing plate (31), an installation cylinder (32), a rotating ring (33), a sleeve (34), an inserting pipe (35), a first screw rod (36), a first moving block (37), an arc-shaped clamping jaw (38), a spherical groove (39), balls (310), a first gear (311), an arc-shaped toothed plate (312), gear teeth (313), a double-end motor (314), a rotating shaft (315) and a third gear (316), wherein a plurality of fixing plates (31) are welded on the outer wall of the top end of the base (1), the installation cylinder (32) is welded on the outer wall between the fixing plates (31) in a penetrating mode, the installation cylinder (32) is communicated with the fixing plates (31), the rotating ring (33) is rotatably installed on the outer wall of the installation cylinder (32), a plurality of sleeves (34) are welded on the outer wall of the installation cylinder (32) in a penetrating mode, the inserting pipe (35) is inserted into one end, located in the installation cylinder (32), of the sleeves (34), be fixed with first movable block (37) on the inner wall of grafting pipe (35), correspond first movable block (37) and rotate on the one side inner wall of sleeve pipe (34) and install first lead screw (36), and first movable block (37) and first lead screw (36) threaded connection, the welding has arc clamping jaw (38) on the other end of grafting pipe (35), a plurality of spherical grooves (39) have been seted up on the outer wall of arc clamping jaw (38), roll on the inside of spherical groove (39) and install ball (310), first lead screw (36) are passed one of sleeve pipe (34) outer wall and are served and have been cup jointed first gear (311), it has arc pinion rack (312) to correspond first gear (311) welding on the outer wall of swivel becket (33).

2. The utility model provides a rotatory accent equipment that presss from both sides of numerical control for laser pipe cutting machine according to claim 1, be provided with a plurality of teeth of a cogwheel (313) on the outer wall all around of rotating ring (33), rotate on the outer wall between fixed plate (31) and install pivot (315), correspond teeth of a cogwheel (313) on the outer wall of pivot (315) and cup jointed third gear (316), and third gear (316) and teeth of a cogwheel (313) meshing, double-end motor (314) are installed to corresponding pivot (315) on base (1) top outer wall, and the both ends of double-end motor (314) output shaft are connected with the one end of pivot (315).

3. The numerical control rotary clamping and adjusting device for the laser pipe cutting machine according to claim 1, wherein the pushing assembly (6) comprises a moving groove (61), a second lead screw (62), a second rotary motor (63), a second moving block (64), a third rotary motor (65), a rotating cover (66), a mounting disc (67), a hydraulic cylinder (68), a third sliding groove (69), a clamping block (610) and a first clamping jaw (611), the outer wall of the top end of the base (1) on one side of the fixing plate (31) is provided with the moving groove (61), the inner wall of the moving groove (61) is rotatably provided with the second lead screw (62), the second rotary motor (63) is mounted on one side of the base (1) corresponding to the second lead screw (62), and one end of the output shaft of the second rotary motor (63) is connected with one end of the second lead screw (62), a second moving block (64) is sleeved on the outer wall of the second lead screw (62), the second moving block (64) is in threaded connection with the second lead screw (62), a third rotating motor (65) is arranged on the outer wall of the top end of the second moving block (64), a rotating cover (66) is fixed on one end of the output shaft of the third rotating motor (65), a mounting disc (67) is fixed on the outer wall of one side of the rotating cover (66), a third sliding groove (69) is arranged on the outer wall of one side of the mounting disc (67) in a penetrating way, a clamping block (610) is arranged inside the third sliding chute (69) in a sliding way, a first clamping jaw (611) is welded on one side of the clamping block (610), a hydraulic cylinder (68) is installed on the other side of the installation disc (67) corresponding to the clamping block (610), and one end of the telescopic shaft of the hydraulic cylinder (68) is fixed on the outer wall of the clamping block (610).

4. The numerical control rotary pipe clamping and adjusting device for the laser pipe cutting machine as claimed in claim 1, wherein the number of the mounting cylinder (32), the rotating ring (33), the rotating shaft (315) and the third gear (316) is two, and the number of the fixing plates (31) is four.

5. The numerical control rotary clamping and adjusting device for the laser pipe cutting machine as claimed in claim 3, wherein the base (1) has two fixing lugs (4) welded to the outer walls of the top ends thereof at both sides of the moving groove (61), a first guide rod (5) welded to the outer wall between the fixing lugs (4), a second slider (2) welded to the outer wall of the second moving block (64) corresponding to the first guide rod (5), and the second slider (2) is slidably connected with the first guide rod (5).

6. The numerical control rotating clamping and adjusting device for the laser pipe cutting machine according to claim 1, wherein a first sliding groove (7) is formed in the inner wall of the sleeve (34), a first sliding block (8) is welded on the outer wall of the inserting pipe (35) corresponding to the first sliding groove (7), and the outer wall of the first sliding block (8) is attached to the inner wall of the first sliding groove (7).

7. The numerical control rotary clamping and adjusting device for the laser pipe cutting machine according to claim 3, wherein the second moving block (64) is welded with an arc-shaped seat (10) on the outer wall below the rotating cover (66), an arc-shaped sliding groove (11) is formed in the outer wall of the arc-shaped seat (10), an annular sliding block (12) is welded on the outer wall of the rotating cover (66) corresponding to the arc-shaped sliding groove (11), and the outer wall of the annular sliding block (12) is attached to the inner wall of the arc-shaped sliding groove (11).

8. The numerical control rotary clamp adjusting device for the laser pipe cutting machine according to claim 1, characterized in that a plurality of stoppers (9) are fixed on the outer wall of the rotating ring (33) at both sides of the arc-shaped toothed plate (312).

9. The working method of the numerical control rotary clamping and adjusting device for the laser pipe cutting machine is characterized in that when the device is used, the base (1) is firstly fixed on the laser pipe cutting machine through bolts, the second moving block (64) is moved to the side far away from the fixed plate (31), one end of a pipe passes through the mounting cylinder (32) and abuts against the mounting disc (67), the hydraulic cylinder (68) is started, and the hydraulic cylinder (68) drives the clamping block (610) to move; the three clamping blocks (610) clamp and fix one end of a pipe, the double-head motor (314) is started at the same time, the double-head motor (314) drives two rotating shafts (315) to rotate, the rotating shafts (315) drive the third gear (316) to rotate, the third gear (316) is meshed with gear teeth (313) to drive the rotating ring (33) to rotate, the rotating ring (33) drives the arc-shaped toothed plate (312) to rotate, the arc-shaped toothed plate (312) is meshed with the first gear (311), the first gear (311) drives the first lead screw (36) to rotate, the first lead screw (36) is matched through the first moving block (37) to drive the inserting pipe (35) to move, the inserting pipe (35) drives the arc-shaped clamping jaw (38) to move, the arc-shaped clamping jaw (38) drives the ball (310) to move, the ball (310) is attached to the outer wall of the pipe, and the pipe is limited and fixed; the second rotating motor (63) is started, the second rotating motor (63) drives the second lead screw (62) to rotate, the second lead screw (62) drives the second moving block (64) to move, the second moving block (64) drives the rotating cover (66) and the mounting disc (67) on the third rotating motor (65) to move, the mounting disc (67) pushes the pipe to move, the pipe which is moved out of the outer part of the mounting cylinder (32) is cut through the laser cutting machine, meanwhile, the third rotating motor (65) is started, the third rotating motor (65) drives the rotating cover (66) and the mounting disc (67) to rotate, the pipe is driven to rotate through the first clamping jaw (611) on the mounting disc (67), and rotating cutting is carried out.

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