CN110315227B

CN110315227B - High-end equipment is made and is used laser cutting anchor clamps

Info

Publication number: CN110315227B
Application number: CN201910784659.3A
Authority: CN
Inventors: 郑喜贵; 张莉; 宋海涛; 朱永刚; 付家林
Original assignee: Zhengzhou University of Science and Technology
Current assignee: Zhengzhou University of Science and Technology
Priority date: 2019-08-23
Filing date: 2019-08-23
Publication date: 2021-01-05
Anticipated expiration: 2039-08-23
Also published as: CN110315227A

Abstract

The invention relates to a laser cutting clamp for manufacturing high-end equipment, which effectively solves the problem that the existing laser clamp can only independently clamp a steel pipe or other parts; the technical scheme includes that the friction wheel type friction wheel driving device comprises a base and is characterized in that a base plate is connected to the base in a left-right sliding mode, fixing rings are fixedly connected to the left end and the right end of the base plate, four threaded holes are uniformly formed in the side walls of the two fixing rings, a fixing screw rod is meshed with each threaded hole in a threaded manner, the top end of each fixing screw rod is coaxially and fixedly connected with a friction wheel, friction discs capable of being in contact connection with the corresponding friction wheels are rotatably connected to one sides of the two fixing rings, and the two friction discs are connected with a friction driving structure arranged; the invention has simple structure, can be directly connected into the numerical control unit of the corresponding laser cutting equipment, is convenient to operate and use, can effectively clamp various parts including steel pipes, and has wide application range and strong practicability.

Description

High-end equipment is made and is used laser cutting anchor clamps

Technical Field

The invention relates to the technical field of laser processing equipment, in particular to a laser cutting clamp for manufacturing high-end equipment.

Background

Laser cutting is a novel cutting technology widely used at present, and is characterized in that a laser beam with high power density is utilized to irradiate a material to be cut, so that the material is heated to a vaporization temperature quickly and is evaporated to form holes, and the holes continuously form slits with narrow width along with the movement of the beam, thereby completing the cutting of the material. The laser cutting is divided into four types of laser gasification cutting, laser fusing cutting, laser oxygen cutting and laser scribing and fracture control cutting according to different principles, and although the four types of cutting are different, the four types of cutting have the advantages of good cutting quality, high cutting speed, high cutting efficiency, non-contact cutting, multiple types of cutting materials and the like.

The steel pipe is an indispensable material in industries such as industrial production, building industry and the like, the steel pipe processed and produced needs to be cut in different lengths, and how to firmly position the steel pipe in the laser cutting line is a technical problem faced by technical personnel in the field. The existing cutting clamp is specially used for a steel pipe, however, the clamp cannot clamp other parts, namely the clamp needs to be replaced independently when the other parts need to be cut, and the clamp of the intelligent numerical control cutting equipment is not easy to replace. Therefore, there is a need for a multi-purpose laser cutting clamp which can effectively clamp a steel pipe and firmly clamp other common parts.

Therefore, the present invention provides a new invention name to solve this problem.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the laser cutting clamp for manufacturing high-end equipment, and the problem that the existing laser clamp can only be used for clamping steel pipes or other parts independently is effectively solved.

The friction wheel type friction wheel base comprises a base and is characterized in that a base plate is connected to the base in a left-right sliding mode, fixing rings are fixedly connected to the left end and the right end of the base plate, four threaded holes are uniformly formed in the side walls of the two fixing rings, a fixing screw rod is meshed with each threaded hole in a threaded mode, the top end of each fixing screw rod is coaxially and fixedly connected with a friction wheel, friction discs which can be in contact connection with the corresponding friction wheel are rotatably connected to one sides of the two fixing rings, and the two friction discs are connected with a friction driving structure arranged on the base plate;

the base plate on the side of the left and right sliding connection have two bases, two the base on all rotate and be connected with two clamping jaws, two clamping jaws on every base all link to each other with the clamping jaw drive structure that sets up on corresponding base.

Preferably, the friction driving structure comprises a friction driving pulley which is coaxially and fixedly connected with the friction disc, the base plate is rotatably connected with two friction driven pulleys, the two friction driving pulleys are connected with the corresponding friction driven pulleys through belts, the two friction driven pulleys are connected through a driving shaft, and the driving shaft is connected with a friction motor which is fixedly connected on the base plate.

Preferably, clamping jaw drive structure rotate the double-ended worm of connection on the base, two clamping jaws on the base and the coaxial fixedly connected with turbine on the pivot of base rotation connection, two the turbine all with the meshing of the double-ended worm on the corresponding base, double-ended worm and fixed connection clamping jaw motor on the base link to each other.

Preferably, the base plate is connected with two driving screw rods in a rotating mode, the two driving screw rods penetrate through the two bases, the two driving screw rods are in threaded fit with the two bases respectively, and the two driving screw rods are connected with the screw rod driving structure fixedly connected to the base plate, so that the two driving screw rods can rotate independently and can also rotate simultaneously.

Preferably, the screw driving structure comprises two screw driven gears which are rotatably connected to the base plate, the two screw driven gears are respectively connected with the two driving screws, and a screw driving gear which is slidably connected to the base plate is arranged between the two screw driven gears;

the base plate on sliding connection have a locating lever from top to bottom, the locating lever on seted up the constant head tank, screw drive gear horizontal sliding connection in the constant head tank, screw drive gear and the screw motor of fixed connection on the locating lever link to each other, the base plate on two hydraulic telescoping rod of fixedly connected with, two the hydraulic telescoping rod other end all with locating lever fixed connection, two hydraulic telescoping rod all communicate with the hydraulic pump of fixed connection on the base.

Preferably, two the equal coaxial fixedly connected with screw driven pulley of drive screw, two the equal coaxial fixedly connected with screw drive pulley of screw driven gear, two screw drive pulley link to each other through belt and corresponding screw driven pulley respectively.

Preferably, the circle centers of the two friction disks and the two friction driving belt pulleys are provided with holes with the same inner diameter as the fixed ring.

Preferably, a plurality of friction strips are arranged on one side of the friction disc, which is in contact with the friction wheel, one end of each friction strip extends towards the circle center of the friction disc in a spiral mode, and vertical friction grains are arranged on the side wall of the friction wheel.

Preferably, the lower end of the base plate is fixedly connected with a base plate threaded sleeve, the base plate threaded sleeve is internally and rotatably meshed with a base plate screw rod which is rotatably connected to the base in a threaded manner, the base plate screw rod is coaxially and fixedly connected with a base plate screw rod driven gear, a base plate screw rod driving gear which is rotatably connected to the base is meshed beside the base plate screw rod driven gear, and the base plate screw rod driving gear is coaxially and fixedly connected with a handle.

Preferably, a plurality of guide wheels in contact with the base are rotatably connected to the base plate.

Preferably, the bottom of the substrate is fixedly connected with a turntable.

Preferably, one end of each fixing screw is fixedly connected with a hard rubber pad, and the inner side of each clamping jaw is fixedly connected with a hard rubber pad.

The invention improves the problem that the existing laser clamp can only clamp a steel pipe or other parts independently, and adopts two steel pipe clamping structures which move synchronously to clamp the steel pipe; two groups of clamping jaws are additionally arranged and are used for clamping other parts including irregular parts; the invention has simple structure, can be directly connected into the numerical control unit of corresponding laser cutting equipment, is convenient to operate and use, can effectively clamp various parts including steel pipes, and has wide application range and strong practicability.

Drawings

Fig. 1 is a first perspective view of the present invention.

FIG. 2 is a schematic front view of the present invention.

Fig. 3 is a schematic perspective sectional view of the present invention.

Fig. 4 is a perspective view of the second embodiment of the present invention.

FIG. 5 is a schematic perspective sectional view of the present invention.

Fig. 6 is a schematic perspective sectional view of the present invention.

Fig. 7 is a perspective view of the fixing screw according to the present invention.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of embodiments of the invention, as illustrated in the accompanying drawings in which reference is made to figures 1 to 7. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

The embodiment I is a laser cutting clamp for manufacturing high-end equipment, which comprises a base 1, wherein the base 1 is detachably arranged on a laser cutting machine, is a common laser cutting clamp base 1 and can provide a fixed foundation for a subsequent structure, and is characterized in that a base plate 2 is connected to the base 1 in a left-right sliding manner, fixed rings 3 are fixedly connected to the left end and the right end of the base plate 2, a steel pipe can penetrate through the two fixed rings 3 and be fixed in the two fixed rings 3 by the subsequent structure, a laser cutting head can cut the steel pipe on the right side of the fixed ring 3, referring to the figures 1, 3 and 5, four threaded holes 4 are uniformly formed in the side walls of the two fixed rings 3, a fixing screw rod 5 is meshed with each threaded hole 4, and the four fixing screw rods 5 on the same fixed ring 3 rotate in the same direction, so that one end, placed in the fixed ring 3, of the fixing screw rod 5 synchronously moves towards, the steel pipe is clamped, the top end of each fixing screw rod 5 is coaxially and fixedly connected with a friction wheel 6, one side of each fixing ring 3 is rotatably connected with a friction disc 7 which can be in contact connection with the corresponding friction wheel 6, the two friction discs 7 are connected with a friction driving structure arranged on the base plate 2, namely, the friction driving structure can drive the two friction discs 7 to move synchronously, the friction discs 7 rotate to drive the corresponding friction wheels 6 to rotate synchronously, so that the corresponding fixing screw rods 5 are driven to rotate, and the plurality of fixing screw rods 5 on the two fixing rings 3 are controlled to clamp or loosen parts in the fixing rings 3;

the base plate 2 is connected with two bases 8 in a left-right sliding manner, the two bases 8 are respectively connected with two clamping jaws 9 in a rotating manner, the two clamping jaws 9 on each base 8 are connected with a clamping jaw 9 driving structure arranged on the corresponding base 8, the clamping jaw 9 driving structure can drive the clamping jaws 9 to open and close, so that other parts with limited length of a non-steel pipe can be fixed, and the two bases 8 can slide left and right to adjust the distance between the two bases to ensure that the parts with different lengths can be fixedly clamped;

the bottom of the base plate 2 is fixedly connected with a turntable, and the turntable is arranged to enable the device to be installed on a laser cutting device, so that the base 1 can rotate, and one degree of freedom of rotation of the device is increased;

one end of each fixing screw rod 5 is fixedly connected with a hard rubber pad, the inner side of each clamping jaw 9 is fixedly connected with the hard rubber pad, and the hard rubber pads are arranged to enable the fixing screw rods 5 and the clamping jaws 9 to better clamp parts without damaging the parts;

when this embodiment is at concrete use, two friction disk 7 simultaneous movement of workman's accessible friction drive structure control, friction disk 7 rotates and drives corresponding friction pulley 6 synchronous rotation to drive corresponding clamping screw 5 and rotate, thereby control a plurality of clamping screw 5 on two solid fixed rings 3 and press from both sides the steel pipe in the solid fixed ring 3 or other parts and press from both sides tightly or loosen, the workman also can guarantee that two sets of clamping jaws 9 can press from both sides the part tightly through controlling the distance between two bases 8 and control clamping jaw 9 drive structure.

Second embodiment, on the basis of the first embodiment, the present embodiment provides a specific friction driving device, so that it can drive two friction discs 7 to rotate synchronously, specifically, referring to fig. 4, the friction driving structure includes a friction driving pulley 10 coaxially and fixedly connected to the friction discs 7, two friction driven pulleys 11 are rotatably connected to the base plate 2, the two friction driving pulleys 10 are both connected to the corresponding friction driven pulleys 11 through belts, the two friction driven pulleys 11 are connected to each other through a driving shaft 33, the driving shaft 33 is connected to a friction motor 12 fixedly connected to the base plate 2, the friction motor 12 is a servo motor, a control unit is integrated inside the servo motor, the friction motor 12 is electrically connected to and powered by a control module of the laser cutting machine, and the control unit controls the working state of the friction motor 12, namely, a worker can control the friction motor 12 to work through a control module of the laser cutting machine, so as to drive the driving shaft 33 to rotate, the driving shaft 33 rotates to drive the two friction driven belt pulleys 11 to rotate, and the corresponding friction driving belt pulley 10 is driven to rotate through a belt, so as to drive the corresponding friction disc 7 to rotate;

two friction disk 7, two friction drive belt pulley 10 centre of a circle department all seted up the hole the same with solid fixed ring 3 internal diameter, the setup in this hole can make steel pipe or other parts that need two solid fixed ring 3 to fix pass two solid fixed ring 3 smoothly than being fixed by corresponding set screw 5, and this embodiment is when specifically using, workman's accessible laser cutting machine's control module control friction motor 12 work to drive shaft 33 and rotate, and drive corresponding friction disk 7 through friction driven pulley 11, friction drive belt pulley 10 and rotate.

Embodiment three, on the basis of embodiment one, this embodiment provides a specific driving structure of the clamping jaw 9, make it steerable clamping jaw 9 open and shut, thereby guarantee can firmly press from both sides tight part, specifically, the driving structure of the clamping jaw 9 rotate the double-headed worm 13 connected on the base 8, coaxial fixedly connected with worm wheel 14 on the pivot that two clamping jaws 9 on the base 8 and base 8 rotate and connect, two the worm wheel 14 all with the corresponding double-headed worm 13 on the base 8 meshing, the double-headed worm 13 rotate can drive the worm wheel 14 that its both ends mesh to the reverse rotation, thereby drive two clamping jaws 9 to press from both sides tightly or unclamp, the double-headed worm 13 link with clamping jaw motor 15 fixedly connected on the base 8, clamping jaw motor 15 and the central control module of the laser cutting machine are electrically connected, clamping jaw motor 15 be servo motor, its inside is integrated with the control unit, the control unit in laser cutting machine's well accuse module accessible clamping jaw motor 15 controls its operating condition, adopts the rotation of 14 worms of turbine control clamping jaw 9 in this embodiment, has utilized the one-way auto-lock ability of 14 worms of turbine, can effectually prevent the part pine that clamping jaw 9 reversal leads to and take off, and this embodiment is when specifically using, and workman's accessible laser cutting machine's well accuse module control is carried motor work to drive double-end worm 13 just reversing, thereby drive clamping jaw 9 through two turbines 14 and press from both sides tightly or loosen.

Fourth embodiment, on the basis of the first embodiment, the present embodiment provides a specific structure of moving the bases 8 left and right, and may be a switching control structure that synchronously controls the two bases 8 and may be individually controlled, specifically, the substrate 2 is rotatably connected with two driving screws 16, the two driving screws 16 both penetrate through the two bases 8, the two driving screws 16 are respectively in threaded fit with the two bases 8, and the two driving screws 16 are both connected with a screw driving structure fixedly connected to the substrate 2, so that the two driving screws 16 may rotate independently and also simultaneously;

the screw driving structure comprises two screw driven gears 17 which are rotatably connected to a base plate 2, the two screw driven gears 17 are respectively connected with two driving screws 16, a screw driving gear 18 which is slidably connected to the base plate 2 is arranged between the two screw driven gears 17, referring to fig. 3, a vertical plate is fixedly connected to the base plate 2, the two screw driven gears 17 are rotatably connected to the vertical plate, an S-shaped S groove is formed in the vertical plate, a gear seat is slidably connected in the S groove, a screw driving gear 18 is rotatably connected to the gear seat, the screw driving gear 18 can be simultaneously positioned between the two screw driven gears 17 and simultaneously meshed with the two screw driven gears 17, and the screw driving gear 18 is also respectively meshed with the two screw driven gears 17;

the base plate 2 is connected with a positioning rod 19 in an up-and-down sliding manner, the positioning rod 19 is provided with a positioning groove 20, the screw driving gear 18 is connected in the positioning groove 20 in a left-and-right sliding manner, referring to fig. 3, specifically, a driving key is fixedly connected with one side of the screw driving gear 18 in a coaxial manner, the driving key is connected in the positioning groove 20 in a left-and-right sliding manner, the positioning rod 19 can drive the driving key to slide in the positioning groove 20 in a left-and-right sliding manner under the limiting of an S groove by up-and-down sliding, the screw driving gear 18 is connected with a screw motor 26 fixedly connected on the positioning rod 19, the base plate 2 is fixedly connected with two hydraulic telescopic rods 21, the other ends of the two hydraulic telescopic rods 21 are fixedly connected with the positioning rod 19, the two hydraulic telescopic rods 21 are communicated with a hydraulic pump 22 fixedly connected on the, well accuse module accessible control hydraulic pump 22 controls the synchronous flexible of two hydraulic telescoping rod 21, this embodiment is when specifically using, workman accessible laser cutting machine's well accuse module control hydraulic pump 22 work, during the initial position, two hydraulic telescoping rod 21 are located the intermediate position, screw drive gear 18 meshes with two screw driven gear 17 simultaneously, screw drive gear 18 rotates two drive screw 16 rotations of accessible two screw driven gear 17 drive, thereby drive two bases 8 and be close to each other or keep away from, when only needing 8 movements of a base, then control two hydraulic telescoping rod 21 and stretch out or retract, thereby make screw drive gear 18 only with a screw driven gear 17 meshing.

Fifth, on the basis of fourth embodiment, this embodiment provides a screw driven gear 17 rotates and drives corresponding drive screw 16 pivoted concrete structure, and specifically, refer to fig. 3, two drive screw 16 all coaxial fixedly connected with screw driven pulley 23, two screw driven gear 17 all coaxial fixedly connected with screw drive pulley 24, two screw drive pulley 24 link to each other with corresponding screw driven pulley 23 through the belt respectively, namely screw driven gear 17 rotate and drive corresponding drive screw 16 through screw driven pulley 23, screw drive pulley 24 and rotate.

Sixth embodiment, on the basis of the first embodiment, the friction disc 7 rotates to drive the friction wheel 6 to rotate and drive the fixing screw 5 to move towards the center of the friction disc 7, in the process, the friction wheel 6 easily causes abrasion on the friction disc 7 along with the movement of the fixing screw 5, the present embodiment provides a specific structure to reduce friction, specifically, a plurality of friction strips 25 are arranged on one side of the friction disc 7, which is in contact with the friction wheel 6, one end of each friction strip 25 extends towards the center of the friction disc 7 in a spiral manner, vertical friction grains are arranged on the side wall of the friction wheel 6, the friction disc 7 rotates to drive the friction wheel 6 to rotate through the friction strips 25 and the vertical friction grains, and the friction grains are driven to move along the friction strips 25 along with the up-down movement of the fixing screw 5 by the friction wheel 6, so that the abrasion of the friction wheel 6 and the friction disc 7 is reduced.

Seventh embodiment, on the basis of the first embodiment, the lower end of the base plate 2 is fixedly connected with a base plate threaded sleeve 27, the base plate threaded sleeve 27 is in threaded engagement with a base plate screw 28 rotatably connected to the base 1, the base plate screw 28 can rotate to drive the base plate 2 to slide left and right on the base 1 through the base plate threaded sleeve 27, the base plate screw 28 is coaxially and fixedly connected with a base plate screw driven gear 29, a base plate screw driving gear 30 rotatably connected to the base 1 is engaged beside the base plate screw driven gear 29, the base plate screw driving gear 30 is coaxially and fixedly connected with a handle 31, a worker can rotate the handle 31 to drive the base plate screw 28 to rotate through the base plate screw driving gear 30 and the base plate screw driven gear 29, and also can fixedly connect the base plate 2 screw motor 26 on the base 1 and make it electrically connected with the central control module of the laser cutting machine, so that a worker can control the left and right movement of the base plate 2 through the center control module.

Eighth embodiment, on the basis of the first or ninth embodiment, the base plate 2 is rotatably connected with a plurality of guide wheels 32 contacting with the base 1, and the arrangement of the guide wheels 32 reduces the friction between the base 1 and the base plate 2, thereby prolonging the service life.

When the device is used specifically, a worker can control the friction motor 12 to work through the control module of the laser cutting machine, so that the driving shaft 33 is driven to rotate, the corresponding friction discs 7 are driven to rotate through the friction driven belt pulley 11 and the friction driving belt pulley 10, the friction discs 7 rotate to drive the corresponding friction wheels 6 to synchronously rotate, so that the corresponding fixing screw rods 5 are driven to rotate, a plurality of fixing screw rods 5 on the two fixing rings 3 are controlled to clamp or release steel pipes or other parts in the fixing rings 3, and the worker can also control the distance between the two bases 8 and control the driving structure of the clamping jaws 9 to ensure that the two groups of clamping jaws 9 can clamp the parts;

when non-steel pipes or shorter parts need to be clamped, workers can control the clamping motor to work through a central control module of the laser cutting machine, so that the double-headed worm 13 is driven to rotate forwards and reversely, and the clamping jaws 9 are driven to clamp or loosen through the two turbines 14;

when the position of two sets of clamping jaws 9 need to be adjusted, workman's accessible laser cutting machine's well accuse module control hydraulic pump 22 work, initial position is during, two hydraulic telescoping rod 21 are located the intermediate position, screw drive gear 18 meshes with two screw driven gear 17 simultaneously, screw drive gear 18 rotates two drive screw 16 rotations of two screw driven gear 17 drive of accessible, thereby drive two bases 8 and be close to each other or keep away from, when only needing a base 8 motion, then control two hydraulic telescoping rod 21 and stretch out or retract, thereby make screw drive gear 18 only with a screw driven gear 17 meshing, and drive screw drive gear 18 through control screw motor 26 and rotate.

Claims

1. The laser cutting clamp for manufacturing the high-end equipment comprises a base (1) and is characterized in that a base plate (2) is connected to the base (1) in a left-right sliding mode, fixing rings (3) are fixedly connected to the left end and the right end of the base plate (2), four threaded holes (4) are uniformly formed in the side walls of the two fixing rings (3), a fixing screw (5) is meshed with each threaded hole (4) in a threaded mode, a friction wheel (6) is coaxially and fixedly connected to the top end of each fixing screw (5), a friction disc (7) capable of being in contact connection with the corresponding friction wheel (6) is rotatably connected to one side of each fixing ring (3), and the two friction discs (7) are connected with a friction driving structure arranged on the base plate (2);

base plate (2) on the horizontal sliding connection have two bases (8), two base (8) on all rotate and be connected with two clamping jaws (9), two clamping jaws (9) on every base (8) all link to each other with clamping jaw (9) drive structure that sets up on corresponding base (8).

2. The laser cutting jig for manufacturing high-end equipment as claimed in claim 1, wherein the friction driving structure comprises a friction driving pulley (10) fixedly connected with the friction disk (7) coaxially, two friction driven pulleys (11) are rotatably connected with the base plate (2), the two friction driving pulleys (10) are connected with the corresponding friction driven pulleys (11) through a belt, the two friction driven pulleys (11) are connected with each other through a driving shaft (33), and the driving shaft (33) is connected with a friction motor (12) fixedly connected with the base plate (2).

3. The laser cutting clamp for manufacturing the high-end equipment is characterized in that the clamping jaw (9) driving structure is a double-headed worm (13) rotatably connected to the base (8), two clamping jaws (9) on the base (8) are coaxially and fixedly connected with a worm wheel (14) on a rotating shaft rotatably connected with the base (8), the two worm wheels (14) are respectively meshed with the double-headed worm (13) on the corresponding base (8), and the double-headed worm (13) is connected with a clamping jaw motor (15) fixedly connected to the base (8).

4. The laser cutting fixture for manufacturing high-end equipment as claimed in claim 1, wherein two driving screws (16) are rotatably connected to the base plate (2), the two driving screws (16) penetrate through the two bases (8), the two driving screws (16) are respectively in threaded fit with the two bases (8), and the two driving screws (16) are respectively connected with a screw driving structure fixedly connected to the base plate (2), so that the two driving screws (16) can rotate independently and simultaneously.

5. The laser cutting jig for manufacturing high-end equipment as claimed in claim 4, wherein the screw driving structure comprises two screw driven gears (17) rotatably connected to the base plate (2), the two screw driven gears (17) are respectively connected to two driving screws (16), and a screw driving gear (18) slidably connected to the base plate (2) is arranged between the two screw driven gears (17);

base plate (2) go up and down sliding connection have locating lever (19), locating lever (19) on seted up constant head tank (20), screw drive gear (18) horizontal sliding connection in constant head tank (20), screw drive gear (18) and fixed connection screw motor (26) on locating lever (19) link to each other, base plate (2) on two hydraulic telescoping rod of fixedly connected with (21), two hydraulic telescoping rod (21) other end all with locating lever (19) fixed connection, two hydraulic telescoping rod (21) all communicate with hydraulic pump (22) of fixed connection on base (8).

6. The laser cutting clamp for manufacturing the high-end equipment as claimed in claim 1, wherein a plurality of friction strips (25) are arranged on one side of the friction disc (7) in contact with the friction wheel (6), one end of each friction strip (25) extends towards the center of the friction disc (7) in a spiral mode, and vertical friction lines are arranged on the side wall of the friction wheel (6).

7. The laser cutting clamp for manufacturing the high-end equipment as claimed in claim 1, wherein a base plate threaded sleeve (27) is fixedly connected to the lower end of the base plate (2), a base plate screw rod (28) rotatably connected to the base (1) is in threaded engagement with the base plate threaded sleeve (27), a base plate screw rod driven gear (29) is coaxially and fixedly connected to the base plate screw rod (28), a base plate screw rod driving gear (30) rotatably connected to the base (1) is engaged beside the base plate screw rod driven gear (29), and a handle (31) is coaxially and fixedly connected to the base plate screw rod driving gear (30).

8. The laser cutting jig for manufacturing high-end equipment as claimed in claim 1 or 7, wherein a plurality of guide wheels (32) contacting with the base (1) are rotatably connected to the base plate (2).