CN210451376U - Optical fiber laser cutting and welding integrated machine - Google Patents

Abstract

The utility model relates to the technical field of plate welding equipment of a strip steel continuous production line, and discloses an optical fiber laser cutting and welding integrated machine, which comprises a base, an inlet mechanism, an outlet mechanism, a longitudinal and transverse moving mechanism, an optical fiber laser cutting head, an optical fiber laser welding head and a transverse splicing mechanism; the inlet mechanism and the outlet mechanism are respectively arranged on two sides of the base along the width direction of the base; the longitudinal and transverse moving mechanism is slidably arranged on the base along the plane direction of the base, and the optical fiber laser cutting head and the optical fiber laser welding head are fixedly connected to the longitudinal and transverse moving mechanism; the transverse assembling mechanism is slidably arranged between the inlet mechanism and the outlet mechanism along the width direction of the base. The optical fiber laser cutting and welding all-in-one machine is reasonable and perfect in design, simple and convenient to operate, cutting and welding are integrated into a whole, welding quality is more stable, manual intervention is reduced, labor intensity is relieved, and production efficiency and product quality are effectively improved.

Description

Optical fiber laser cutting and welding integrated machine

Technical Field

The utility model relates to a belted steel continuous production line panel welding equipment technical field especially relates to an optic fibre laser cutting welding all-in-one.

Background

Oriented silicon steel is an important metal functional material which is closely related to energy conservation, and is also an indispensable metal functional material in national electric power, electronic and military industries. Oriented silicon steel is a soft magnetic material widely used in the field of electricians and is usually rolled into strips with standard sizes for use. Because the magnetic permeability of the common impurity-containing iron can be improved and the coercive force and iron loss can be reduced after the silicon is added, the silicon steel has excellent magnetic performance, but the increase of the silicon content can cause the material to become hard and brittle, the heat conductivity and toughness are reduced, and the heat dissipation and mechanical processing are not favorable, so the production process of the oriented silicon steel is complex, and the manufacturing technology is strict. The production quantity and scale development of the oriented silicon steel is greatly improved by each large steel enterprise in China through over ten years of effort, but a few high-end thin-plate oriented silicon steels still depend on import.

At present, butt-splicing welding of strip steel plates is an important process in the production process of high-end oriented silicon steel, the production process generally adopts the traditional production modes of plate off-line shearing, manual butt-splicing, gas-shielded spot welding and the like, the defects of low efficiency, unstable quality, single variety and the like exist, and the development of oriented silicon steel strip production is directly restrained.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an optic fibre laser cutting welding all-in-one for solve current oriented silicon steel belted steel welding quality unstability, the problem of inefficiency, with the integrated level that improves belted steel production, reduce artificial intervention.

The embodiment of the utility model provides an optical fiber laser cutting and welding integrated machine, which comprises a base, an inlet mechanism, an outlet mechanism, a longitudinal and transverse moving mechanism, an optical fiber laser cutting head, an optical fiber laser welding head and a transverse splicing mechanism; the inlet mechanism and the outlet mechanism are respectively arranged on two sides of the base along the width direction of the base;

the longitudinal and transverse moving mechanism is slidably arranged on the base along the plane direction of the base, and the optical fiber laser cutting head and the optical fiber laser welding head are fixedly connected to the longitudinal and transverse moving mechanism; the transverse butt-joint mechanism is slidably arranged between the inlet mechanism and the outlet mechanism along the width direction of the base.

The base is further fixedly connected with two gantries which are arranged in parallel along the length direction of the base, the longitudinal and transverse moving mechanism comprises a longitudinal moving assembly and a transverse moving assembly, and the longitudinal moving assembly comprises a longitudinal slide rail fixedly connected to the top of each gantry and a longitudinal slide block connected to the longitudinal slide rail in a sliding manner; the transverse moving assembly comprises a first transverse sliding rail fixedly connected with the two longitudinal sliding blocks and a first transverse sliding block connected with the first transverse sliding rail in a sliding mode, and the optical fiber laser cutting head and the optical fiber laser welding head are fixedly connected with the first transverse sliding block side by side along the length direction of the base.

The belt head processing platform is close to the inlet mechanism, and the belt tail processing platform is close to the outlet mechanism; the transverse butt-joint mechanism comprises a second transverse slide rail fixedly connected to the base and a second transverse slide block connected to the second transverse slide rail in a sliding manner; the belt head processing platform is fixedly connected to the second transverse sliding block, and the belt tail processing platform is fixedly connected to the base.

The belt head processing platform is arranged above the belt head processing platform, and the belt tail processing platform is arranged above the belt head processing platform; the inlet clamping mechanism and the outlet clamping mechanism both comprise a pressing plate and a driving device for driving the pressing plate to move up and down.

The pressing plate comprises a plurality of sub-pressing plates which are arranged along the length direction of the base in a segmented mode, the driving device comprises pressing air cylinders which correspond to the sub-pressing plates in a one-to-one mode, cylinder bodies of the pressing air cylinders are connected to the base, and piston rods of the pressing air cylinders are fixedly connected to the upper surfaces of the sub-pressing plates.

Elastic pressing claws are arranged at one end, facing the outlet clamping mechanism, of the pressing plate of the inlet clamping mechanism and at one end, facing the inlet clamping mechanism, of the pressing plate of the outlet clamping mechanism.

Wherein, entry mechanism with exit mechanism all includes chooses the cover subassembly, choose the cover subassembly including choosing the cover roller and choosing the cover cylinder, choose the cylinder body of cover cylinder rotate connect in the base, choose the piston rod of cover cylinder rotate connect in choose the cover roller, choose the cover cylinder to be used for the drive choose the cover roller jack-up belted steel.

The inlet mechanism and the outlet mechanism further comprise at least one group of limit stoppers, and each group of limit stoppers comprises two stoppers which are oppositely arranged on two sides of the strip steel to limit the strip steel to move along the width direction of the base.

The embodiment of the utility model provides an optic fibre laser cutting welding all-in-one, the on-line screen storage device comprises a base, entry mechanism, exit mechanism, move mechanism about freely and quickly, optic fibre laser cutting head, optic fibre laser welding head and horizontal to piecing together the mechanism, entry mechanism is used for leading-in next volume belted steel's tape head, exit mechanism is used for leading-in last volume belted steel's tape tail, drive optic fibre laser cutting head through move mechanism about freely and quickly and cut tape head and tape tail in proper order, make cutting edge between them parallel to each other, the rethread is horizontal to piecing together the tape head after the mechanism will cut to the tape tail, make both to piecing together and reserve certain weld clearance, rethread moves mechanism about freely and quickly and drives optic fibre laser welding head and weld tape head and tape tail together along the. The optical fiber laser cutting and welding all-in-one machine is reasonable and perfect in design, simple and convenient to operate, cutting and welding are integrated into a whole, welding quality is more stable, manual intervention is reduced, labor intensity is relieved, and production efficiency and product quality are effectively improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front view of an optical fiber laser cutting and welding all-in-one machine in an embodiment of the present invention;

fig. 2 is a side view of an optical fiber laser cutting and welding all-in-one machine according to an embodiment of the present invention;

description of reference numerals:

1: a base; 2: an inlet mechanism; 3: an outlet mechanism;

4: a longitudinal movement assembly; 5: a lateral movement assembly; 6: an optical fiber laser cutting head;

7: a fiber laser welding head; 8: a transverse butt-joint mechanism; 9: a gantry;

10: a belt head processing platform; 11: a band tail processing platform; 12: an inlet clamp mechanism;

13: an outlet clamp mechanism; 14: pressing a plate; 15: a pressing cylinder;

16: elastic pressing claws; 17: a sleeve picking assembly; 18: sleeve picking rollers;

19: a sleeve picking cylinder; 20: an edge-leaning stop block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the embodiments of the present invention, it should be noted that the terms "first" and "second" are used for clearly indicating the numbering of the product parts and do not represent any substantial difference unless explicitly stated or limited otherwise. The top, the middle, the bottom, the upper, the lower, the left and the right are all based on the directions shown in the attached drawings. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

It is to be understood that, unless otherwise expressly specified or limited, the term "coupled" is used broadly, and may, for example, refer to directly coupled devices or indirectly coupled devices through intervening media. The specific meaning of the above terms in the embodiments of the present invention can be understood in specific cases by those skilled in the art.

Fig. 1 is the embodiment of the utility model provides an in the embodiment of the front view of an optic fibre laser cutting welding all-in-one, fig. 2 is the embodiment of the utility model provides an in the embodiment of the side view of an optic fibre laser cutting welding all-in-one, as shown in fig. 1-2, the embodiment of the utility model provides a pair of optic fibre laser cutting welding all-in-one, including base 1, still include entry mechanism 2, exit mechanism 3, move about freely and quickly mechanism, optic fibre laser cutting head 6, optic fibre laser welding head 7 and transversely to piecing together mechanism 8. The inlet mechanism 2 is provided on the left side of the base 1 in the width direction of the base 1, and the outlet mechanism 3 is provided on the right side of the base 1 in the width direction of the base 1. The tail of the previous strip steel is led into the base 1 from the outlet mechanism 3 on the right side, and the head of the next strip steel is led into the base 1 from the inlet mechanism 2 on the left side to be cut and welded.

The longitudinal and transverse moving mechanism is slidably arranged on the base 1 along the plane direction of the base 1, and the fiber laser cutting head 6 and the fiber laser welding head 7 are fixedly connected with the longitudinal and transverse moving mechanism. The longitudinal and transverse moving mechanism can freely move along the width direction and the length direction of the base 1 to drive the optical fiber laser cutting head 6 and the optical fiber laser welding head 7 to move above the base 1, and the cutting and welding operation of the tape head and the tape tail can be completed as required.

Transversely to piecing together mechanism 8 and locating between entry mechanism 2 and the exit mechanism 3 along the width direction slidable of base 1, after the cutting operation of taking the head and taking the tail is accomplished, drive the head through transversely to piecing together mechanism 8 and be close to the tape tail right, until taking and leaving suitable weld gap between the tail, the rethread optic fibre laser welding head 7 will take the head and take the tail welding together.

The embodiment provides a fiber laser cutting welding all-in-one, the on-line screen storage device comprises a base, entrance mechanism, exit mechanism, move mechanism with great ease, the fiber laser cutting head, fiber laser welding head and horizontal to piecing together the mechanism, entrance mechanism is used for leading-in the tape head of next volume belted steel, exit mechanism is used for leading-in the tape tail of last volume belted steel, drive fiber laser cutting head through move mechanism with great ease and cut tape head and tape tail in proper order, make cutting limit between them parallel to each other, the tape head after the rethread horizontal to piecing together the mechanism will cut moves to the tape tail, make both to piecing together and reserve certain weld clearance, the rethread moves mechanism with great ease and drives fiber laser welding head and weld the tape head and the tape tail together along the weld clearance of reserving, and. The optical fiber laser cutting and welding all-in-one machine is reasonable and perfect in design, simple and convenient to operate, cutting and welding are integrated into a whole, welding quality is more stable, manual intervention is reduced, labor intensity is relieved, and production efficiency and product quality are effectively improved.

Further, as shown in fig. 1-2, two gantries 9 arranged in parallel along the length direction of the base 1 are further fixedly connected to the base 1, the longitudinal and transverse moving mechanism includes a longitudinal moving assembly 4 and a transverse moving assembly 5, the number of the longitudinal moving assemblies 4 is also two, and the longitudinal moving assemblies correspond to the gantries 9 one by one. Each longitudinal moving assembly 4 comprises a longitudinal slide fixed to the top of the gantry 9 and a longitudinal slide slidably connected to the longitudinal slide. The transverse moving assembly 5 comprises a first transverse slide rail fixedly connected to the two longitudinal slide blocks and a first transverse slide block slidably connected to the first transverse slide rail.

As shown in fig. 1, the left end of the first lateral slide rail is fixed to the longitudinal slide block of the longitudinal slide rail, so that the lateral moving component 5 can move along the length direction of the base 1 along with the two longitudinal slide blocks. The optical fiber laser cutting head 6 and the optical fiber laser welding head 7 are fixedly connected to the first transverse sliding block, so that the optical fiber laser cutting head 6 can move back and forth, the edges of the tape head and the tape tail can be cut respectively by using one optical fiber laser cutting head 6, and the cutting surfaces of the tape head and the tape tail are guaranteed to have excellent consistency.

The optical fiber laser cutting head 6 and the optical fiber laser welding head 7 are arranged side by side along the length direction of the base 1, the optical fiber laser cutting head 6 and the optical fiber laser welding head 7 can be fixedly connected together through the fixing base, and the connecting line of the optical fiber laser cutting head 6 and the optical fiber laser welding head 7 is parallel to the longitudinal sliding rail, so that the tracks of the two optical fiber laser heads in the processing and running process can be highly overlapped, and the welding quality is improved.

Further, as shown in fig. 1, a leading processing platform 10 near the entrance mechanism 2 and a trailing processing platform 11 near the exit mechanism 3 are also included. The surfaces of the strip steel leading-in platform of the inlet mechanism 2, the strip head processing platform 10, the strip tail processing platform 11 and the strip steel leading-in platform of the outlet mechanism 3 are kept horizontal. The transverse butt-joint mechanism 8 comprises a second transverse sliding rail fixedly connected to the base 1 and a second transverse sliding block slidably connected to the second transverse sliding rail, the belt head processing platform 10 is fixedly connected to the second transverse sliding block, and the belt tail processing platform 11 is fixedly connected to the base 1. After the tape head and the tape tail are cut, the tape head processing platform 10 is driven to move rightwards through the second transverse sliding block to be close to the tape tail processing platform 11.

Further, as shown in fig. 1, an inlet clamping mechanism 12 is provided above the leading processing platform 10, and an outlet clamping mechanism 13 is provided above the trailing processing platform 11. The inlet clamping mechanism 12 and the outlet clamping mechanism 13 are identical in structure and are symmetrically arranged. The inlet clamping mechanism 12 and the outlet clamping mechanism 13 each include a platen 14 and a driving device that drives the platen 14 up and down. The lower surface of the platen 14 is parallel to the upper surfaces of the leading and trailing processing platforms 10 and 11. The driving device is used for moving the pressure plate 14 up and down to press the head and the tail of the belt.

Further, as shown in fig. 2, the pressing plate 14 includes a plurality of sub-pressing plates arranged along the length direction of the base 1 in a segmented manner, the driving device includes pressing cylinders 15 corresponding to the sub-pressing plates one to one, the cylinder bodies of the pressing cylinders 15 are connected to the base 1, and the piston rods of the pressing cylinders 15 are fixedly connected to the upper surfaces of the sub-pressing plates. In a specific embodiment, the pressing plate 14 of the inlet clamping mechanism 12 and the pressing plate 14 of the outlet clamping mechanism 13 each include four sub-pressing plates arranged side by side in sequence, and each sub-pressing plate corresponds to one pressing air cylinder 15, that is, a total of eight sub-pressing plates and eight pressing air cylinders 15 are included.

Specifically, the inlet clamping mechanism 12 further includes an inlet clamping bracket fixedly connected to the headed processing platform 10, and the plurality of pressing cylinders 15 of the inlet clamping mechanism 12 may be fixed to the inlet clamping bracket. The inlet clamp bracket may move in synchronization with the tape head processing platform 10 to move the tape head smoothly. The outlet clamp mechanism 13 further comprises an outlet clamp support fixedly connected to the belt tail machining platform 11, and a plurality of pressing cylinders 15 of the outlet clamp mechanism 13 can be fixed on the outlet clamp support and always keep still.

Further, as shown in fig. 1, an end of the pressure plate 14 of the inlet clamping mechanism 12 facing the outlet clamping mechanism 13 and an end of the pressure plate 14 of the outlet clamping mechanism 13 facing the inlet clamping mechanism 12 are provided with elastic pressure claws 16. Specifically, the right end of the pressure plate 14 of the inlet clamping mechanism 12 and the left end of the pressure plate 14 of the outlet clamping mechanism 13 are provided with elastic pressure claws 16. The elastic pressing claw 16 and the pressing plate 14 are arranged at an included angle and inclined downwards, the elastic pressing claw 16 comprises an elastic sheet and a pressing head, one end of the elastic sheet is fixedly connected to the pressing plate 14, and the other end of the elastic sheet is fixedly connected to the pressing head.

Further, as shown in fig. 1, the inlet mechanism 2 and the outlet mechanism 3 both include a sleeve picking assembly 17, the sleeve picking assembly 17 includes a sleeve picking roller 18 and a sleeve picking cylinder 19, a cylinder body of the sleeve picking cylinder 19 is rotatably connected to the base 1, a piston rod of the sleeve picking cylinder 19 is rotatably connected to the sleeve picking roller 18, and the sleeve picking cylinder 19 is used for driving the sleeve picking roller 18 to jack up the strip steel. When the tail of the previous strip steel is led in from the outlet mechanism 3, the sleeve picking roller 18 can be lifted to a certain height by adjusting the extension length of the piston rod of the sleeve picking cylinder 19, and the tail of the strip can be jacked to a certain height and then enters, so that the friction force is reduced.

Further, as shown in fig. 1, the inlet mechanism 2 and the outlet mechanism 3 each further include at least one set of edge-abutting stoppers 20, each set of edge-abutting stoppers 20 includes two stoppers disposed on two sides of the strip steel, and a distance between the two stoppers may be equal to or slightly greater than a width of the strip steel, so as to limit the strip steel to move along the width direction of the base 1.

The following is a detailed description of the operation method of the integrated optical fiber laser cutting and welding machine in this embodiment.

As shown in fig. 1, the strip tail of the previous strip steel is firstly guided from the outlet mechanism 3 to the strip tail processing platform 11, and the outlet clamp mechanism 13 is started to enable the elastic pressing claw 16 to press the strip tail. And simultaneously, leading the head of the next coil of strip steel into the head processing platform 10 from the inlet mechanism 2, and starting the inlet clamp mechanism 12 to enable the elastic pressing claw 16 to press the head of the strip steel. The belt head and the belt tail are respectively lifted by the sleeve picking assembly 17 to form a loop, so that the belt head and the belt tail can be easily inserted.

As shown in fig. 2, the fiber laser cutting head 6 is aligned to the edge of the tape tail processing platform 11, and is used as a running starting point, then the fiber laser cutting head 6 is started, and is adjusted to a proper power and focal length, the longitudinal moving assembly 4 is used to drive the fiber laser cutting head 6 to move from front to back at a stable speed until a final running end point, and the fiber laser cutting head 6 is closed. And then the longitudinal moving component 4 drives the optical fiber laser cutting head 6 to retreat to the operation starting point again, the transverse moving component 5 is used for aligning the optical fiber laser cutting head 6 to the edge of the tape head processing platform 10, the optical fiber laser cutting head 6 is started and adjusted to proper power and focal length, the longitudinal moving component 4 is used for driving the optical fiber laser cutting head 6 to move at a stable speed from the front to the back until the final operation end point, and the optical fiber laser cutting head 6 is closed. Finally, the longitudinal moving component 4 drives the fiber laser cutting head 6 to retreat to the operation starting point again. The parallelism of the two edges of the cut tape head and the cut tape tail is 0.01-0.03 mm. Thus, the cutting operation is completed.

Then, the transverse butt-joint mechanism 8 is used for slowly pushing the belt head processing platform 10 and the inlet clamp mechanism 12 with a small force, so that the belt head clamped by the transverse butt-joint mechanism is slowly close to the belt tail until the welding gap reserved for butt-joint of the belt head and the belt tail is 0.1mm, then the optical fiber laser welding head 7 is started, the optical fiber laser welding head 7 is driven by the longitudinal moving assembly 4 to weld the belt head and the belt tail along the welding gap until the operation end point, and finally the optical fiber laser welding head 7 is driven by the longitudinal moving assembly 4 to retreat to the operation starting point again. And finishing the whole cutting and welding process.

Can see through above embodiment, the utility model provides an optic fibre laser cutting welding all-in-one, the on-line screen storage device comprises a base, inlet mechanism, outlet mechanism, move about freely and quickly moving mechanism, optic fibre laser cutting head, optic fibre laser welder head and horizontal to piecing together the mechanism, inlet mechanism is used for leading-in next volume belted steel's tape head, outlet mechanism is used for leading-in last volume belted steel's tape tail, it cuts tape head and tape tail in proper order to drive optic fibre laser cutting head through moving mechanism about freely and quickly, make cutting edge between them parallel to each other, the rethread is horizontal to piecing together the tape head after the mechanism will cut to the tape tail, make both to piecing together and reserving certain weld clearance, rethread moves about freely and quickly moving mechanism and drives optic fibre laser welder head along the weld clearance of reserving and take the tape. The optical fiber laser cutting and welding all-in-one machine is reasonable and perfect in design, simple and convenient to operate, cutting and welding are integrated into a whole, welding quality is more stable, manual intervention is reduced, labor intensity is relieved, and production efficiency and product quality are effectively improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (8)

1. An optical fiber laser cutting and welding integrated machine comprises a base, and is characterized by further comprising an inlet mechanism, an outlet mechanism, a longitudinal and transverse moving mechanism, an optical fiber laser cutting head, an optical fiber laser welding head and a transverse splicing mechanism; the inlet mechanism and the outlet mechanism are respectively arranged on two sides of the base along the width direction of the base;

the longitudinal and transverse moving mechanism is slidably arranged on the base along the plane direction of the base, and the optical fiber laser cutting head and the optical fiber laser welding head are fixedly connected to the longitudinal and transverse moving mechanism; the transverse butt-joint mechanism is slidably arranged between the inlet mechanism and the outlet mechanism along the width direction of the base.

2. The integrated optical fiber laser cutting and welding machine according to claim 1, wherein two gantries arranged in parallel along the length direction of the base are further fixedly connected to the base, the longitudinal and transverse moving mechanism comprises a longitudinal moving assembly and a transverse moving assembly, and the longitudinal moving assembly comprises a longitudinal slide rail fixedly connected to the top of each gantry and a longitudinal slide block slidably connected to the longitudinal slide rail; the transverse moving assembly comprises a first transverse sliding rail fixedly connected with the two longitudinal sliding blocks and a first transverse sliding block connected with the first transverse sliding rail in a sliding mode, and the optical fiber laser cutting head and the optical fiber laser welding head are fixedly connected with the first transverse sliding block side by side along the length direction of the base.

3. The integrated optical fiber laser cutting and welding machine according to claim 1, further comprising a tape head processing platform adjacent to the inlet mechanism and a tape tail processing platform adjacent to the outlet mechanism; the transverse butt-joint mechanism comprises a second transverse slide rail fixedly connected to the base and a second transverse slide block connected to the second transverse slide rail in a sliding manner; the belt head processing platform is fixedly connected to the second transverse sliding block, and the belt tail processing platform is fixedly connected to the base.

4. The integrated optical fiber laser cutting and welding machine according to claim 3, further comprising an inlet clamping mechanism disposed above the tape head processing platform and an outlet clamping mechanism disposed above the tape tail processing platform; the inlet clamping mechanism and the outlet clamping mechanism both comprise a pressing plate and a driving device for driving the pressing plate to move up and down.

5. The optical fiber laser cutting and welding all-in-one machine according to claim 4, wherein the pressing plate comprises a plurality of sub pressing plates which are arranged along the length direction of the base in a segmented mode, the driving device comprises pressing air cylinders which correspond to the sub pressing plates in a one-to-one mode, the cylinder bodies of the pressing air cylinders are connected to the base, and piston rods of the pressing air cylinders are fixedly connected to the upper surfaces of the sub pressing plates.

6. The integrated optical fiber laser cutting and welding machine according to claim 4, wherein elastic pressing claws are arranged at one end, facing the outlet clamping mechanism, of the pressing plate of the inlet clamping mechanism and at one end, facing the inlet clamping mechanism, of the pressing plate of the outlet clamping mechanism.

7. The optical fiber laser cutting and welding all-in-one machine according to claim 1, wherein the inlet mechanism and the outlet mechanism comprise sleeve picking assemblies, each sleeve picking assembly comprises a sleeve picking roller and a sleeve picking cylinder, a cylinder body of each sleeve picking cylinder is rotatably connected to the base, a piston rod of each sleeve picking cylinder is rotatably connected to the sleeve picking roller, and each sleeve picking cylinder is used for driving each sleeve picking roller to jack strip steel.

8. The integrated optical fiber laser cutting and welding machine according to claim 7, wherein the inlet mechanism and the outlet mechanism further comprise at least one set of edge stoppers, and each set of edge stoppers comprises two stoppers arranged on two sides of the strip steel relatively to limit the strip steel to move along the width direction of the base.

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