CN112756685A

CN112756685A - Numerical control cutting machine capable of preventing clamp from being worn

Info

Publication number: CN112756685A
Application number: CN202110026760.XA
Authority: CN
Inventors: 聂赛飞
Original assignee: Individual
Current assignee: Yancheng Heyun Technology Co ltd
Priority date: 2021-01-09
Filing date: 2021-01-09
Publication date: 2021-05-07
Anticipated expiration: 2041-01-09
Also published as: CN112756685B

Abstract

The invention relates to the technical field of numerical control, and discloses a numerical control cutting machine capable of preventing a clamp from being worn, which comprises a base, a cutting arm, a movable clamp, a fixed clamp and a clamping assembly, wherein the top end of the base is fixedly connected with the cutting arm; after the steel pipe cutting is accomplished, electric telescopic handle operation makes the carriage release lever rising motion, and the carriage release lever uses the reel through the cooperation of curved claw, third spring and plush copper to rotate taut cord of taking makes the steel pipe section release get into the base inside, and traditional promotion steel pipe section makes its mode of whereabouts, and the steel pipe section can not take place the friction with the anchor clamps inner wall to can not wear and tear the anchor clamps.

Description

Numerical control cutting machine capable of preventing clamp from being worn

Technical Field

The invention relates to the technical field of numerical control, in particular to a numerical control cutting machine capable of preventing a clamp from being abraded.

Background

The numerical control cutting machine is particularly characterized by comprising a machine tool, a workpiece to be cut is cut by driving the machine tool to move through a numerical control program, when the existing numerical control cutting machine is used for cutting a steel pipe, the steel pipe is clamped through a movable clamp and two immovable clamps, the steel pipe is clamped through the movable clamp and is moved into the two immovable clamps, then the steel pipe is cut between the two immovable clamps through a cutting wheel, after the cutting is finished, the movable clamp clamps the steel pipe and then sends the steel pipe into the two immovable clamps, in the process, the steel pipe section which is cut before is ejected, but the cut steel pipe can rub against the inner walls of the two immovable clamps, particularly, a large amount of metal scraps can be generated during the cutting, the metal scraps can fall onto the inner walls of the clamps, and when the cut steel pipe section is ejected, the metal chips and the inner wall of the clamp generate friction, and the clamp is excessively worn over time, so that the inner wall becomes uneven, the phenomena of inclination and unstable clamping can be generated when the clamp clamps the steel pipe, the cutting wheel is not perpendicular to the steel pipe when the steel pipe is cut, the cutting surface of the steel pipe is not perpendicular to the steel pipe, and therefore the numerical control cutting machine capable of preventing the clamp from being worn is provided.

Disclosure of Invention

In order to achieve the purpose of preventing the inner wall of the clamp from excessively wearing, the invention provides the following technical scheme: the utility model provides a prevent numerical control cutting machine of anchor clamps wearing and tearing, includes base, cutting arm, removal clamp, fixation clamp and centre gripping subassembly, base top and cutting arm fixed connection, the base top is located cutting arm openly and centre gripping subassembly fixed connection, the fixation clamp is located centre gripping subassembly left side and base top fixed connection, the removal clamp is located fixation clamp left side and base top sliding connection, grasps the steel pipe through fixation clamp and centre gripping subassembly, then utilizes the cutting arm to cut the steel pipe.

As the optimization, the centre gripping subassembly comprises fixed arm, electric telescopic handle, roof, splint, movable block, drive assembly, collection subassembly and commentaries on classics board, fixed arm bottom and base fixed connection, fixed arm inner wall right side and electric telescopic handle fixed connection, electric telescopic handle top and roof fixed connection, roof bottom and splint fixed connection, movable block and fixed arm inner wall left side sliding connection, drive assembly and fixed arm inner wall left side swing joint, collect subassembly and movable block inner wall swing joint, change the board and rotate on the left of the movable block and be connected, the centre gripping subassembly is when fixed arm, movable block and commentaries on classics board are fixed, utilizes electric telescopic handle operation area roof decline, thereby the roof takes splint to descend and grasps the steel pipe.

As an optimization, the transmission assembly comprises a moving rod, a toothed plate, a guide rope, a bent telescopic rod, a first spring, a connecting column, a circular slider, a chute, a winding drum, a raised head, a bent claw and a third spring, the top end of the moving rod is fixedly connected with a clamping plate, the left side of the moving rod is fixedly connected with the connecting column, the left side of the connecting column is movably connected with the circular slider, the outer wall of the circular slider is slidably connected with the chute, the chute is arranged on the inner wall of the moving block, the top end of the guide rope is movably connected with the outer wall of the winding drum, the winding drum is arranged on the inner wall of the moving rod and is movably connected with a fixed arm, the raised head is fixedly connected with the outer wall of the winding drum, the bent claw is arranged on the right side of the winding drum and is rotatably connected with the inner wall of the moving rod, the top end of the bent claw is fixedly, the right side of the bent telescopic rod is fixedly connected with the bottom end of the moving block, one end, far away from the moving block, of the bent telescopic rod is fixedly connected with the bottom end of the rotating plate, the outer wall of the bent telescopic rod is movably connected with the first spring, and the rotating plate is driven to rotate when the clamping plate is moved downwards by the transmission assembly, so that the cut steel pipe section is released into the base.

As optimization, the collecting component consists of a loop bar, an inner bar, a spiral groove, a limiting slide block, a rolling ball, an arch-shaped block, a convex block, a second spring, a strip-shaped slide block and a moving column, the sleeve rod is rotationally connected with the inner wall of the moving block, the top end of the inner wall of the sleeve rod is connected with the limiting slide block in a sliding way, the bottom end of the limiting slide block is fixedly connected with the inner rod, the inner rod is movably connected with the inner wall of the loop bar, the spiral groove is arranged on the outer wall of the inner rod, the inner wall of the spiral groove is connected with the rolling ball in a sliding way, the top end of the rolling ball is fixedly connected with the inner wall of the moving block, the left side of the inner rod is fixedly connected with the arched block, the top end of the convex block is fixedly connected with the inner wall of the moving block, the inner wall of the arch-shaped block is fixedly connected with a second spring, the bottom end of the second spring is fixedly connected with a strip-shaped sliding block, the left side of the strip-shaped sliding block is fixedly connected with the moving column, and the metal debris remained on the surface of the rotating plate is collected by the collecting assembly.

Preferably, the right side of the inner wall of the base is slidably connected with a collecting box, the top end of the base is located at the left side of the movable clamp and fixedly provided with a conveying belt, and the conveying belt is used for conveying steel pipes.

Preferably, the number of the electric telescopic rods and the auxiliary assemblies thereof is two, and the electric telescopic rods and the auxiliary assemblies thereof are symmetrically arranged about the vertical center line of the top plate, so that the lifting motion of the top plate is more stable, and the steel pipe is stably clamped through the clamping plates.

As optimization, the movable rod right side fixed mounting has the bracing piece, and bracing piece right side fixed mounting has the supporting slide block, supporting slide block outer wall and fixed arm sliding connection for the movable rod takes the stable motion of circular slider through the spliced pole area.

As an optimization, the number of the convex blocks is two, the convex blocks are symmetrically arranged about the horizontal center line of the inner rod, the magnetic columns are fixedly mounted on the left sides of the convex blocks above the inner rod, the right sides of the arched blocks are provided with straight grooves, the straight grooves are matched with the magnetic columns, so that the magnetic columns can enter the arched blocks, the top ends of the inner walls of the movable columns are fixedly provided with magnetic blocks, and the magnetic blocks and the magnetic columns attract each other.

As an optimization, a bevel gear is fixedly mounted on the right side of the loop bar, the bevel gear is matched with the toothed plate, a guide rod is fixedly mounted at the bottom end of the limiting slide block, the left side of the guide rod is fixedly connected with the inner rod, the two limiting slide blocks are arranged symmetrically about the horizontal center line of the inner rod, and the inner rod can only slide transversely relative to the loop bar.

The invention has the beneficial effects that: after the steel pipe is cut, the electric telescopic rod operates to enable the movable rod to move upwards, the movable rod drives the winding drum to rotate and tension the guide rope through the matching of the bent claw, the third spring and the raised head, so that the steel pipe section is released into the base, compared with the traditional mode of pushing the steel pipe section to fall, the steel pipe section cannot rub against the inner wall of the clamp, so that the clamp cannot be abraded, after the rotating plate rotates to completely release the steel pipe section, the moving column moves downwards and contacts with the surface of the rotating plate through the matching use of the second spring and the strip-shaped sliding block after being far away from the magnetic column arranged at the left side of the convex block, then the movable column drives the sponge head to push the metal scraps on the surface of the rotating plate into the scrap storage box, so that a large amount of metal scraps are not accumulated on the inner wall of the clamp, and further prevent the situation that the inside of the clamp is seriously abraded due to excessive friction between the metal scraps and the inner wall of the clamp.

Drawings

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

FIG. 2 is a schematic view of a clamping assembly according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 5 is a schematic view of the present invention taken partially from FIG. 2;

FIG. 6 is an enlarged view of the structure at C of FIG. 5 according to the present invention;

FIG. 7 is an enlarged view of the structure shown at D in FIG. 5 according to the present invention.

In the figure: 100. a base; 200. a cutting arm; 300. moving the clamp; 400. a fixing clip; 500. a clamping assembly; 501. a fixed arm; 502. an electric telescopic rod; 503. a top plate; 504. a splint; 505. a moving block; 506. a transmission assembly; 5060. a travel bar; 5061. a toothed plate; 5062. guiding a rope; 5063. a curved telescopic rod; 5064. a first spring; 5065. connecting columns; 5066. a circular slider; 5067. a chute; 5068. a reel; 5069. a raised head; 50690. bending a claw; 50691. a third spring; 507. a collection assembly; 5070. a loop bar; 5071. an inner rod; 5072. a helical groove; 5073. a limiting slide block; 5074. rolling a ball; 5075. a bow-shaped block; 5076. a bump; 5077. a second spring; 5078. a bar-shaped slider; 5079. moving the column; 508. and (6) rotating the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.

Referring to fig. 1, a numerical control cutting machine for preventing abrasion of a clamp includes a base 100, a cutting arm 200, a movable clamp 300, a fixed clamp 400 and a clamping assembly 500, wherein the top end of the base 100 is fixedly connected with the cutting arm 200, the top end of the base 100 is positioned on the front surface of the cutting arm 200 and fixedly connected with the clamping assembly 500, the fixed clamp 400 is positioned on the left side of the clamping assembly 500 and fixedly connected with the top end of the base 100, the movable clamp 300 is positioned on the left side of the fixed clamp 400 and slidably connected with the top end of the base 100, a steel pipe is clamped by the fixed clamp 400 and the clamping assembly 500, then the steel pipe is cut by the cutting arm 200, the right side of the inner wall of the base 100 is slidably connected with a;

according to fig. 1, the steel pipe is transported to the moving clamp 300 by a conveyor belt, the moving clamp 300 moves the steel pipe to the fixing clamp 400 and the clamping assembly 500, the steel pipe is fixed by the fixing clamp 400 and the clamping assembly 500, then the steel pipe is cut by the cutting arm 200, after the cutting of the steel pipe is completed, the cutting arm 200 stops, then the clamping assembly 500 releases the cut steel pipe section into the base 100, and then into the collection box.

Referring to fig. 1-2, the clamping assembly 500 comprises a fixed arm 501, an electric telescopic rod 502, a top plate 503, a clamping plate 504, a moving block 505, a transmission assembly 506, a collection assembly 507 and a rotating plate 508, wherein the bottom end of the fixed arm 501 is fixedly connected with the base 100, the right side of the inner wall of the fixed arm 501 is fixedly connected with the electric telescopic rod 502, the top end of the electric telescopic rod 502 is fixedly connected with the top plate 503, the bottom end of the top plate 503 is fixedly connected with the clamping plate 504, the moving block 505 is slidably connected with the left side of the inner wall of the fixed arm 501, the transmission assembly 506 is movably connected with the left side of the inner wall of the fixed arm 501, the collection assembly 507 is movably connected with the inner wall of the moving block 505, the rotating plate 508 is rotatably;

according to fig. 2, the electric telescopic rod 502 moves to lower the top plate 503, the top plate 503 moves to bring the clamping plate 504, and the clamping plate 504 and the moving block 505 rotate the plate 508 to be matched with each other to clamp the steel pipe.

Referring to fig. 2-5, the transmission assembly 506 is composed of a moving rod 5060, a toothed plate 5061, a guide rope 5062, a curved telescopic rod 5063, a first spring 5064, a connecting column 5065, a circular slider 5066, a chute 5067, a winding drum 5068, a convex 5069, a curved claw 50690 and a third spring 50691, wherein the top end of the moving rod 5060 is fixedly connected with the clamping plate 504, the left side of the moving rod 5060 is fixedly connected with the connecting column 5065, the left side of the connecting column 5065 is movably connected with the circular slider 5066, the outer wall of the circular slider 5066 is slidably connected with the chute 5067, and the chute 5067 is arranged on the inner wall of the moving block 505;

referring to fig. 2, a support rod is fixedly installed on the right side of the moving rod 5060, a support slider is fixedly installed on the right side of the support rod, and the outer wall of the support slider is slidably connected with the fixed arm 501, so that the moving rod 5060 drives the circular slider 5066 to stably move through the connecting column 5065;

referring to fig. 2-5, the top end of the guiding rope 5062 is movably connected to the outer wall of the winding drum 5068, the winding drum 5068 is located on the inner wall of the moving rod 5060 and movably connected to the fixed arm 501, the protruding head 5069 is fixedly connected to the outer wall of the winding drum 5068, the curved claw 50690 is located on the right side of the winding drum 5068 and rotatably connected to the inner wall of the moving rod 5060, the top end of the curved claw 50690 is fixedly connected to the third spring 50691, the top end of the third spring 50691 is fixedly connected to the inner wall of the moving rod 5060, the end of the guiding rope 5062 far from the moving rod 5060 is fixedly connected to the bottom end of the rotating plate 508, the right side of the curved telescopic rod 5063 is fixedly connected to the bottom end of the moving block 505, the end of the curved telescopic rod 5063 far from the;

according to fig. 2-5, the clamp 504 moves up with the moving rod 5060, the moving rod 5060 moves with the connecting rod 5065, the connecting rod 5065 slides with the circular slider 5066 in the chute 5067, so that the traveling block 505 moves in the direction of the power telescopic pole 502, so that the untested steel pipe section is no longer subjected to the thrust from both sides and the top pressure, at the same time, the moving rod 5060 rotates with the reel 5068 by the cooperation of the curved claw 50690, the third spring 50691 and the nose 5069, the guide line 5062 is wound on the reel 5068, the guide line 5062 rotates with the rotating plate 508, so that the steel pipe section is released into the base 100.

Referring to fig. 1-7, the collecting assembly 507 is composed of a sleeve 5070, an inner rod 5071, a spiral groove 5072, a limit slider 5073, a rolling ball 5074, an arc-shaped block 5075, a convex block 5076, a second spring 5077, a strip-shaped slider 5078 and a moving column 5079, the sleeve 5070 is rotatably connected with the inner wall of the moving block 505, a bevel gear is fixedly mounted on the right side of the sleeve 5070, and the bevel gear is matched with a toothed plate 5061;

according to fig. 2-7, after the rotating plate 508 rotates such that the steel pipe section is completely released, the moving rod 5060 continues to move upward, at which time the rotating plate 508 has rotated to the maximum stroke, at which time the moving rod 5060 continues to move upward such that the curved pawl 50690 is no longer in contact with the nose 5069, such that the rotating plate 508 is reset under the cooperation of the first spring 5064 and the curved telescopic rod 5063, and then the toothed plate 5061 is engaged with the bevel gear, and the toothed plate 5061 rotates with the sleeve 5070 through the bevel gear;

referring to fig. 4-7, the top end of the inner wall of a loop bar 5070 is slidably connected with a limit slider 5073, the bottom end of the limit slider 5073 is fixedly connected with an inner rod 5071, the inner rod 5071 is movably connected with the inner wall of the loop bar 5070, the bottom end of the limit slider 5073 is fixedly provided with a guide rod, the left side of the guide rod is fixedly connected with the inner rod 5071, the limit sliders 5073 are two and are symmetrically arranged about the horizontal center line of the inner rod 5071, a spiral groove 5072 is formed in the outer wall of the inner rod 5071, the inner wall of the spiral groove 5072 is slidably connected with a ball 5074, the top end of the ball 5074 is fixedly connected with the inner wall of a moving block 505, the left side of the inner rod 5071 is fixedly connected with an arch block 5075, the top end of a projection 5076 is fixedly connected with the inner wall of the moving block 505, the inner wall of the arch block;

referring to fig. 7, the number of the projections 5076 is two, the projections are symmetrically arranged about the horizontal center line of the inner rod 5071, the magnetic pole is fixedly mounted on the left side of the projection 5076 above the inner rod 5071, the right side of the arcuate block 5075 is provided with a straight slot, the straight slot is matched with the magnetic pole, so that the magnetic pole can enter the arcuate block 5075, the top end of the inner wall of the movable column 5079 is fixedly mounted with a magnetic block, and the magnetic block and the magnetic pole are mutually attracted;

according to the figures 5-7, the loop bar 5070 rotates to drive the inner rod 5071 to rotate through the limiting slide block 5073, the inner rod 5071 moves towards the vertical center line of the top plate 503 under the matching action of the spiral groove 5072 and the rolling ball 5074, the inner rod 5071 drives the arch block 5075 to move, the arch block 5075 drives the moving column 5079 and the accessory components thereof to move, the bottom end of the moving column 5079 is fixedly provided with a sponge head, the top end of the inner wall of the rotating plate 508 is connected with a scrap storage box close to the vertical center line of the top plate 503 in a sliding mode, and the moving column 5079 drives the sponge head to push metal scraps on the surface of the.

In use, referring to fig. 1-7, after the steel pipe is cut, the power extension pole 502 moves to lift the top plate 503, the top plate 503 moves to bring the clamping plate 504, the clamping plate 504 moves to bring the moving rod 5060, the moving rod 5060 moves to bring the connecting rod 5065, the connecting rod 5065 slides to bring the circular slider 5066 to slide in the chute 5067, the moving block 505 moves to the direction of the power extension pole 502, the un-steel pipe is not subjected to the thrust of two sides and the pressure of the top end, the moving rod 5060 rotates to bring the winding drum 5068 by the cooperation of the curved claw 50690, the third spring 50691 and the nose 5069, the guide rope 5062 is wound on the winding drum 5068, the guide rope 5062 rotates to bring the rotating plate 508 to release the steel pipe into the base 100, after the rotating plate 508 rotates to completely release the steel pipe, the moving rod 5060 continues to move upwards, the rotating plate 508 rotates to the maximum stroke, the moving rod 5060 continues to move upwards, such that the curved jaw 50690 is no longer in contact with the nose 5069, such that the pivotal plate 508 is returned to its original position by the cooperation of the first spring 5064 and the curved telescopic rod 5063, then the toothed plate 5061 is engaged with the bevel gear, the toothed plate 5061 is rotated with the sleeve 5070 by the bevel gear, the sleeve 5070 is rotated with the inner rod 5071 by the limit slider 5073, the inner rod 5071 is moved in the direction perpendicular to the centerline of the top plate 503 by the cooperation of the spiral groove 5072 and the ball 5074, the inner rod 5071 is moved with the arcuate block 5075, the arcuate block 5075 is moved with the moving column 5079, after the moving column 5079 is moved away from the magnetic column mounted on the left side of the projection 5076, the moving column 5079 is moved downward by the cooperation of the second spring 5077 and the bar slider 5078 and is brought into surface contact with the pivotal plate 508, then the moving column 5079 is brought with the sponge head to push metal chips on the surface of the pivotal plate 508 into the scrap storage box, and then after the uncut steel pipe has been, the electric telescopic rod 502 moves downwards with the clamping plate 504 through the top plate 503, the loop bar 5070 is reversely rotated through the toothed plate 5061, the moving column 5079 and the auxiliary components thereof return to the original position, then the cutting arm 200 operates to cut off the steel pipe, and the process is repeated, so that the inner part of the clamp for clamping the steel pipe by the numerical control cutting machine cannot be abraded by metal debris.

In summary, when the steel pipe is cut, the electric telescopic rod 502 is operated to make the moving rod 5060 move upwards, the moving rod 5060 rotates with the winding drum 5068 to tighten the guide rope 5062 by the cooperation of the curved jaw 50690, the third spring 50691 and the nose 5069, so that the steel pipe section is released into the base 100, and compared with the conventional way of pushing the steel pipe section to fall, the steel pipe section does not rub against the inner wall of the clamp, so as not to wear the clamps, after the rotation of the rotation plate 508 such that the steel pipe section is completely released, by moving the column 5079 away from the magnetic column installed at the left side of the projection 5076, the moving column 5079 is moved downward and brought into surface contact with the rotation plate 508 by the cooperation of the second spring 5077 and the bar slider 5078, then the movable column 5079 pushes the metal scraps on the surface of the rotating plate 508 into the scrap storage box with the sponge head, so that the metal scraps are not accumulated on the inner wall of the clamp in a large amount, and further prevent the situation that the inside of the clamp is seriously abraded due to excessive friction between the metal scraps and the inner wall of the clamp.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a prevent numerical control cutting machine of anchor clamps wearing and tearing, includes base (100), cutting arm (200), removes clamp (300), fixation clamp (400) and centre gripping subassembly (500), its characterized in that: base (100) top and cutting arm (200) fixed connection, base (100) top is located cutting arm (200) openly and centre gripping subassembly (500) fixed connection, fixation clamp (400) are located centre gripping subassembly (500) left side and base (100) top fixed connection, it is located fixation clamp (400) left side and base (100) top sliding connection to remove clamp (300).

2. The numerical control cutting machine for preventing the clamp from being worn according to claim 1, wherein: the clamping assembly (500) comprises a fixed arm (501), an electric telescopic rod (502), a top plate (503), a clamping plate (504), a moving block (505), a transmission assembly (506), a collection assembly (507) and a rotating plate (508), wherein the bottom end of the fixed arm (501) is fixedly connected with a base (100), the right side of the inner wall of the fixed arm (501) is fixedly connected with the electric telescopic rod (502), the top end of the electric telescopic rod (502) is fixedly connected with the top plate (503), the bottom end of the top plate (503) is fixedly connected with the clamping plate (504), the moving block (505) is slidably connected with the left side of the inner wall of the fixed arm (501), the transmission assembly (506) is movably connected with the left side of the inner wall of the fixed arm (501), the collection assembly (507) is movably connected with the inner wall of the moving block (505), and the rotating plate (508.

3. The numerical control cutting machine for preventing the clamp from being worn according to claim 2, wherein: the transmission assembly (506) consists of a moving rod (5060), a toothed plate (5061), a guide rope (5062), a bent telescopic rod (5063), a first spring (5064), a connecting column (5065), a circular sliding block (5066), a chute (5067), a winding drum (5068), a convex head (5069), a curved claw (50690) and a third spring (50691), the top end of the moving rod (5060) is fixedly connected with a clamping plate (504), the left side of the moving rod (5060) is fixedly connected with the connecting column (5065), the left side of the connecting column (5065) is movably connected with the circular sliding block (5066), the outer wall of the circular sliding block (5066) is slidably connected with the chute (5067), the chute (5067) is arranged on the inner wall of the moving block (505), the top end of the guide rope (5062) is movably connected with the outer wall of the winding drum (5068), the winding drum (5068) is positioned on the inner wall of the moving rod (5060) and is movably connected with the fixed arm (50501), the convex head (5069) is fixedly connected with, the dog bend (50690) is located reel (5068) right side and is connected with carriage release lever (5060) inner wall rotation, dog bend (50690) top and third spring (50691) fixed connection, third spring (50691) top and carriage release lever (5060) inner wall fixed connection, the one end and the rotor plate (508) bottom fixed connection of carriage release lever (5060) are kept away from to lead rope (5062), curved telescopic link (5063) right side and movable block (505) bottom fixed connection, the one end that one end movable block (505) was kept away from to curved telescopic link (5063) is connected with the bottom fixed of rotor plate (508), curved telescopic link (5063) outer wall and first spring (5064) swing joint.

4. The numerical control cutting machine preventing the clamp from being worn according to claim 3, characterized in that: the collecting component (507) consists of a loop bar (5070), an inner bar (5071), a spiral groove (5072), a limiting sliding block (5073), a rolling ball (5074), an arc-shaped block (5075), a convex block (5076), a second spring (5077), a strip-shaped sliding block (5078) and a moving column (5079), the loop bar (5070) is rotatably connected with the inner wall of the moving block (505), the top end of the inner wall of the loop bar (5070) is slidably connected with the limiting sliding block (5073), the bottom end of the limiting sliding block (5073) is fixedly connected with the inner bar (5071), the inner bar (5071) is movably connected with the inner wall of the loop bar (5070), the spiral groove (5072) is arranged on the outer wall of the inner bar (5071), the inner wall of the spiral groove (5072) is slidably connected with the rolling ball (5074), the top end of the spiral groove (5074) is fixedly connected with the inner wall of the moving block (505), the left side of the inner bar (5071) is fixedly connected with the arc-shaped block, the inner wall of the arch-shaped block (5075) is fixedly connected with a second spring (5077), the bottom end of the second spring (5077) is fixedly connected with a strip-shaped sliding block (5078), and the left side of the strip-shaped sliding block (5078) is fixedly connected with a movable column (5079).

5. The numerical control cutting machine for preventing the clamp from being worn according to claim 1, wherein: the right side of the inner wall of the base (100) is connected with a collecting box in a sliding mode, and the top end of the base (100) is located on the left side of the movable clamp (300) and is fixedly provided with a conveying belt.

6. The numerical control cutting machine for preventing the clamp from being worn according to claim 2, wherein: the number of the electric telescopic rods (502) and the auxiliary components thereof is two, and the electric telescopic rods and the auxiliary components thereof are symmetrically arranged about the vertical center line of the top plate (503).

7. The numerical control cutting machine preventing the clamp from being worn according to claim 3, characterized in that: the right side of the moving rod (5060) is fixedly provided with a supporting rod, the right side of the supporting rod is fixedly provided with a supporting slide block, and the outer wall of the supporting slide block is connected with the fixed arm (501) in a sliding manner.

8. The numerical control cutting machine preventing the clamp from being worn according to claim 4, characterized in that: the number of the convex blocks (5076) is two, the convex blocks are symmetrically arranged relative to the horizontal center line of the inner rod (5071), the left side of the convex block (5076) above the inner rod (5071) is fixedly provided with a magnetic column, the right side of the arch-shaped block (5075) is provided with a straight groove, and the straight groove is matched with the magnetic column.

9. The numerical control cutting machine preventing the clamp from being worn according to claim 4, characterized in that: loop bar (5070) right side fixed mounting has bevel gear, bevel gear and pinion rack (5061) looks adaptation, spacing slider (5073) bottom fixed mounting has the guide arm, guide arm left side and interior pole (5071) fixed connection, spacing slider (5073) quantity is two, and carries out the symmetry setting about the horizontal center line of interior pole (5071).