CN113681333A - Cutting machine for steel plate groove machining and machining method thereof - Google Patents

Abstract

The invention provides a cutting machine for groove machining of a steel plate and a machining method of the cutting machine, wherein the cutting machine comprises a workbench, a cutting device is arranged on one side of the workbench, a feeding device is arranged on the other side of the workbench, and a steel plate replacing device is arranged on the top end surface of the workbench; the cutting device comprises a support frame connected with one side surface of the workbench, a cutting head fixed inside the support frame, and a pressing plate assembly fixed outside the support frame; the steel plate replacing device comprises a plurality of feed back conveyor belts fixed at the top end of the workbench, lifting and feeding assemblies arranged at two sides of the feed back conveyor belts, and a steel plate bracket fixed at an execution end of the lifting and feeding assemblies; the lifting feeding assembly comprises a groove arranged at the top end of the workbench, and a first feeding mechanism and a second feeding mechanism which are arranged in the groove. The invention can assist workers to quickly finish the replacement of the steel plate to be processed and the processed steel plate, thereby improving the processing efficiency of the steel plate groove.

Description

Cutting machine for steel plate groove machining and machining method thereof

Technical Field

The invention mainly relates to the technical field of steel plate processing, in particular to a cutting machine for steel plate groove processing and a processing method thereof.

Background

The beveling machine is a special tool for chamfering and beveling the welded front end face of a pipeline or a steel plate so as to facilitate subsequent welding work.

According to a self-propelled steel sheet groove preparation equipment that patent document with application number CN202021228632.0 provided can know, this groove preparation equipment includes the workstation, the top fixedly connected with sleeve of workstation, telescopic outer wall fixedly connected with mounting plate, one side swing joint of mounting plate has fastening bolt, fastening bolt's outer wall swing joint has the nut, the slide has been seted up to telescopic outer wall, telescopic inner wall swing joint has the slider, the lateral wall fixedly connected with of slider connects the connecting block, one side fixedly connected with mount table of connecting block. The self-propelled steel plate groove machining equipment achieves the purpose of conveniently adjusting the position of the cutter, solves the problem that the position of the cutter is inconvenient to adjust by common self-propelled machining equipment, does not need workers to frequently adjust the position of the cutter, saves working time, reduces the workload of the workers, increases the production efficiency of a factory to a certain extent, indirectly increases the benefit of the factory simultaneously, and meets the requirement of the factory.

However, the groove machining device still has defects, for example, although the machining device does not need a worker to frequently adjust the position of the tool, the traditional machining device usually needs to replace the machined steel plate and the unprocessed steel plate by the manual work after the machining is completed, so that the labor is consumed, and the working efficiency of the machining device is reduced.

Disclosure of Invention

The invention mainly provides a cutting machine for processing a steel plate groove and a processing method thereof, which are used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a cutting machine for groove machining of a steel plate and a machining method of the cutting machine comprise a workbench, wherein a cutting device is arranged on one side of the workbench, a feeding device is arranged on the other side of the workbench, and a steel plate replacing device is arranged on the top end surface of the workbench;

the cutting device comprises a support frame in sliding connection with the surface of one side of the workbench, a cutting head fixed inside the support frame, and a pressing plate assembly fixed outside the support frame;

the steel plate replacing device comprises a plurality of equidistantly arranged feed back conveyor belts fixed at the top end of the workbench, lifting and feeding assemblies which are arranged at two sides of the feed back conveyor belts and fixed at the top end of the workbench, and a steel plate bracket fixed at an execution end of the lifting and feeding assemblies, wherein a plurality of equidistantly arranged brushes are fixed on the lower surface of the steel plate bracket;

lifting pay-off subassembly is including locating the recess on workstation top is located in proper order inside first feeding mechanism and the second feeding mechanism of recess, first feeding mechanism is the same with second feeding mechanism structure, first feeding mechanism is including being fixed in first cylinder in the cell body of recess is fixed in the pressure bearing frame of first cylinder execution end to and through the bearing frame with the transmission band that the pressure bearing frame upper surface is connected.

Furthermore, the feeding device comprises a winding assembly arranged inside the workbench and a lifting frame connected with an execution end of the winding assembly, wherein reinforcing beams are symmetrically arranged and fixed on the lower surface of the lifting frame, the reinforcing beams are slidably connected with a slide rail, the slide rail is fixed on one side surface of the lifting frame and penetrates through a shell of the lifting frame, and the slide rail on the lifting frame is used for guiding the reinforcing beams so as to keep the lifting frame to move along a straight line when lifted.

Further, the rolling assembly comprises a rolling roller and a steel wire rope, the rolling roller is arranged on the upper surface of the pressure bearing frame and is coaxially arranged with the transmission band, the steel wire rope is connected with the rolling roller and the lifting frame, the rolling roller is driven to rotate, the steel wire rope connected with the lifting frame on the rolling roller is wound and unwound, and therefore the effect of driving the lifting frame to lift is achieved.

Further, wire rope and tensioning roller looks butt, the tensioning roller pass through the bearing frame with the surface of workstation is connected for wire rope carries out the tensioning through the tensioning roller, and through the rotation of tensioning roller, in order to prevent that wire rope and the surface of workstation from producing dry friction.

Further, the clamp plate subassembly is fixed in including the symmetry the second cylinder of support frame surface, with the piston rod looks articulated first connecting rod of second cylinder, and with the one end looks articulated second connecting rod that the second cylinder was kept away from to first connecting rod, the one end that first connecting rod was kept away from to the second connecting rod wear to be equipped with the rotation axis of connecting is rotated to the casing of support frame, two the rotation axis all runs through the clamp plate to make first connecting rod change the straight line concertina movement of second cylinder piston rod into the driving force that promotes the second connecting rod, thereby drive the rotation axis and rotate, compress tightly and loosen the steel sheet with the clamp plate that drives on the rotation axis.

Furthermore, be equipped with slider between cutting device and the workstation, slider including be fixed in the sharp module of workstation surface, and with the slider that the execution end of sharp module is connected, the slider is fixed in a side surface of support frame, because the slider slides on the sharp module of workstation surface for the support frame can carry out linear displacement through the slider.

Further, the workstation is close to cutting device's one end upper surface embedding has a plurality of electro-magnets, and is a plurality of the electro-magnet equidistance sets up one by one to it is fixed to adsorb to utilize the supplementary clamp plate subassembly of electro-magnet to the steel sheet.

According to the technical scheme of the cutting machine for the groove processing of the steel plate, the processing method of the cutting machine for the groove processing of the steel plate comprises the following steps:

step one, a first steel plate to be processed is placed into a lifting frame, and the lifting frame is driven by a winding assembly to ascend until the lifting frame is flush with the upper surface of a workbench;

pushing the steel plate lifted in the step one into a workbench, and processing a groove of a welding surface of the steel plate through a cutting head to obtain a first finished steel plate;

step three, the lifting frame is driven to descend by the winding assembly, and the pressure-bearing frame is driven by the transmission belt to be close to the finished steel plate manufactured in the step two;

driving the pressure bearing frame to be close to the lifting frame through the conveying belt, and driving the lifting frame to be close to the pressure bearing frame through the winding assembly so as to push a second steel plate to be processed, which is borne by the lifting frame, to enter the pressure bearing frame;

and step five, driving the first finished steel plate manufactured in the step three to be close to the lifting frame through the feed back conveying belt, driving the conveying belt to descend through the first air cylinder after the finished steel plate is pushed into the lifting frame, so that the unprocessed steel plate moves to the position below the cutting head, and processing through the cutting head to manufacture a second finished steel plate.

Further, in the second step, the steel plate to be processed is fixed through the pressing plate assembly.

Further, in the fifth step, after the second finished steel plate is manufactured, the fourth step and the fifth step are circulated.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the invention can assist workers to quickly finish the replacement of the steel plate to be processed and the processed steel plate, thereby improving the processing efficiency of the steel plate groove, and specifically comprises the following steps: after making first finished product steel sheet, the crane descends through the drive of rolling subassembly, drives through the transmission band that the bearing frame is close to the crane, drives the crane through the rolling subassembly and is close to the bearing frame to the steel sheet that treats processing that promotes the crane and bear gets into the bearing frame, so that the upper surface of workstation is put into with unprocessed steel sheet to the workman, drives the first finished product steel sheet that makes through the feed back conveyer belt and is close to the crane, pushes the finished product steel sheet crane.

Secondly, the invention can clean the processed steel plate when the steel plate to be processed and the processed steel plate are replaced, thereby improving the effect of the steel plate, and specifically comprises the following steps: when accomplishing the processing of first steel sheet, promote the transmission band through first cylinder and rise, when driving the pressure-bearing frame that bears unprocessed steel sheet through the transmission band and carry, because pressure-bearing frame bottom is equipped with the brush to when waiting to process the steel sheet and processing back steel sheet crisscross each other, accomplish the steel sheet of processing through the brush clearance.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

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

FIG. 2 is a first isometric view of the present invention;

FIG. 3 is a first exploded view of the present invention;

FIG. 4 is a second exploded view of the present invention;

FIG. 5 is a schematic structural diagram of a workbench according to the present invention;

FIG. 6 is a front view of the present invention;

FIG. 7 is a schematic structural view of a first feeding mechanism according to the present invention;

fig. 8 is a top view of the present invention.

In the figure: 10. a work table; 11. an electromagnet; 20. a cutting device; 21. a support frame; 22. a cutting head; 23. a platen assembly; 231. a second cylinder; 232. a first link; 233. a second link; 234. a rotating shaft; 235. pressing a plate; 30. a steel plate replacing device; 31. a feed back conveyor belt; 32. lifting the feeding assembly; 321. a first feeding mechanism; 3211. a first cylinder; 3212. a pressure bearing frame; 3213. a conveyor belt; 322. a second feeding mechanism; 323. a groove; 33. a steel plate bracket; 34. a brush; 40. a feeding device; 41. a winding component; 411. a tension roller; 412. a wind-up roll; 413. a wire rope; 42. a slide rail; 43. a lifting frame; 44. a reinforcing beam; 50. a sliding device; 51. a linear module; 52. a slide block.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In an embodiment, referring to fig. 1 to 8, in a preferred embodiment of the present invention, a cutting machine for beveling a steel plate and a method for processing the same include a table 10, wherein a cutting device 20 is disposed on one side of the table 10, a feeding device 40 is disposed on the other side of the table 10, and a steel plate replacing device 30 is disposed on a top surface of the table 10;

the cutting device 20 comprises a support frame 21 slidably connected with one side surface of the worktable 10, a cutting head 22 fixed inside the support frame 21, and a pressure plate assembly 23 fixed outside the support frame 21;

the steel plate replacing device 30 comprises a plurality of equally-spaced feed back conveyor belts 31 fixed at the top end of the workbench 10, a lifting and feeding assembly 32 arranged at two sides of the feed back conveyor belts 31 and fixed at the top end of the workbench 10, and a steel plate bracket 33 fixed at the execution end of the lifting and feeding assembly 32, wherein a plurality of equally-spaced brushes 34 are fixed on the lower surface of the steel plate bracket 33;

the lifting feeding assembly 32 comprises a groove 323 arranged at the top end of the workbench 10, a first feeding mechanism 321 and a second feeding mechanism 322 which are sequentially arranged in the groove 323, the first feeding mechanism 321 and the second feeding mechanism 322 have the same structure, the first feeding mechanism 321 comprises a first air cylinder 3211 fixed in a groove body of the groove 323, a pressure bearing frame 3212 fixed at an execution end of the first air cylinder 3211, and a conveying belt 3213 connected with the upper surface of the pressure bearing frame 3212 through a bearing seat;

it should be noted that, in this embodiment, a first steel plate to be processed is placed into the lifting frame 43, the lifting frame 43 is driven by the winding assembly 41 to rise until the lifting frame 43 is flush with the upper surface of the workbench 10, then the steel plate is pushed into the workbench 10, a groove of a welding surface of the steel plate is processed by the cutting head 22 to obtain a first finished steel plate, the lifting frame 43 is driven by the winding assembly 41 to descend, the pressure-bearing frame 3212 is driven by the transmission belt 3213 to be close to the finished steel plate, the transmission belt 3213 drives the pressure-bearing frame 3212 to be close to the lifting frame 43, the winding assembly 41 drives the lifting frame 43 to be close to the pressure-bearing frame 3212 to push a second steel plate to be processed, which is borne by the lifting frame 43, to bring convenience for a worker to place an unprocessed steel plate onto the upper surface of the workbench 10;

further, the manufactured first finished steel plate is driven by the feed-back conveying belt 31 to be close to the lifting frame 43, after the finished steel plate is pushed into the lifting frame 43, the conveying belt 3213 is driven by the first air cylinder 3211 to descend, so that the unprocessed steel plate moves to the position below the cutting head 22, and is processed by the cutting head 22 to manufacture a second finished steel plate, so that workers can take out and arrange the processed steel plate conveniently;

further, when the first steel plate is machined, the transmission belt 3213 is pushed to ascend through the first cylinder 3211, and the transmission belt 3213 drives the pressure bearing frame 3212 for bearing the unprocessed steel plate to convey, and the bottom end of the pressure bearing frame 3212 is provided with the brush 34, so that the machined steel plate is cleaned through the brush 34 when the steel plate to be machined and the machined steel plate are mutually staggered.

Specifically, please refer to fig. 2, 3 and 5, in another preferred embodiment of the present invention, the feeding device 40 includes a winding assembly 41 disposed inside the workbench 10, and a lifting frame 43 connected to an executing end of the winding assembly 41, the lower surface of the lifting frame 43 is fixed with symmetrically disposed reinforcing beams 44, the reinforcing beams 44 are slidably connected to a sliding rail 42, the sliding rail 42 is fixed to a side surface of the lifting frame 43 and penetrates through a housing of the lifting frame 43, the winding assembly 41 includes a winding roller 412 disposed on an upper surface of the pressure bearing frame 3212 and coaxially disposed with the transmission belt 3213, and a wire rope 413 connecting the winding roller 412 and the lifting frame 43, the wire rope 413 abuts against a tension roller 411, and the tension roller 411 is connected to an outer surface of the workbench 10 through a bearing seat;

it should be noted that, in this embodiment, the lifting frame 43 is lifted by retracting and releasing the winding assembly 41 to change the position of the steel plate carried on the lifting frame 43, and the slide rail 42 on the lifting frame 43 provides guidance for the reinforcement beam 44 to keep the lifting frame 43 moving along a straight line when lifted;

further, when the transmission belt 3213 runs, the transmission belt 3213 and the wind-up roll 412 are coaxially arranged, so that the wind-up roll 412 is driven to rotate, the steel wire rope 413 connected between the wind-up roll 412 and the lifting frame 43 is wound and unwound, and the effect of driving the lifting frame 43 to lift is achieved;

further, the wire rope 413 is tensioned by the tension roller 411, and by the rotation of the tension roller 411, the wire rope 413 is prevented from generating dry friction with the outer surface of the table 10.

Specifically, please refer to fig. 2 and 6 again, in another preferred embodiment of the present invention, the pressing plate assembly 23 includes a second cylinder 231 symmetrically fixed on the outer surface of the supporting frame 21, a first connecting rod 232 hinged to a piston rod of the second cylinder 231, and a second connecting rod 233 hinged to one end of the first connecting rod 232 far from the second cylinder 231, a rotating shaft 234 rotatably connected to the housing of the supporting frame 21 is inserted into one end of the second connecting rod 233 far from the first connecting rod 232, both rotating shafts 234 penetrate through the pressing plate 235, a sliding device 50 is disposed between the cutting device 20 and the worktable 10, the sliding device 50 includes a linear module 51 fixed on the outer surface of the worktable 10, and a slider 52 connected to an executing end of the linear module 51, the slider 52 is fixed on one side surface of the supporting frame 21, a plurality of electromagnets 11 are embedded in the upper surface of one end of the workbench 10 close to the cutting device 20, and the electromagnets 11 are arranged at equal intervals one by one;

it should be noted that, in this embodiment, when the piston rod on the second cylinder 231 extends and retracts, because the first connecting rod 232 on the piston rod is connected to the second connecting rod 233 through the rotating shaft, and the second connecting rod 233 is connected to the supporting frame 21 through the rotating shaft 234, the first connecting rod 232 converts the linear extending and retracting movement of the piston rod of the second cylinder 231 into a pushing force for pushing the second connecting rod 233, so as to drive the rotating shaft 234 to rotate, and drive the pressing plate 235 on the rotating shaft 234 to press and loosen the steel plate;

further, as the sliding block 52 slides on the linear module 51 on the outer surface of the worktable 10, the supporting frame 21 can be linearly displaced by the sliding block 52;

further, the electromagnet auxiliary pressing plate assembly 23 is used for adsorbing and fixing the steel plate.

As shown in fig. 1 to 8, there will also be provided a machining method of a cutting machine for beveling a steel plate according to the above embodiment, including the steps of:

step one, a first steel plate to be processed is placed into a lifting frame 43, and the lifting frame 43 is driven by a winding assembly 41 to ascend until the lifting frame 43 is flush with the upper surface of the workbench 10;

pushing the steel plate lifted in the step one into a workbench 10, and processing a groove of a welding surface of the steel plate through a cutting head 22 to obtain a first finished steel plate;

step three, the lifting frame 43 is driven to descend by the winding assembly 41, and the pressure-bearing frame 3212 is driven by the transmission belt 3213 to be close to the finished steel plate manufactured in the step two;

driving the pressure bearing frame 3212 to be close to the lifting frame 43 through the conveyor belt 3213, driving the lifting frame 43 to be close to the pressure bearing frame 3212 through the winding assembly 41, so as to push the second steel plate to be processed, which is borne by the lifting frame 43, to enter the pressure bearing frame 3212;

step five, the first finished steel plate manufactured in the step three is driven to approach the lifting frame 43 through the feed back conveying belt 31, after the finished steel plate is pushed into the lifting frame 43, the conveying belt 3213 is driven to descend through the first air cylinder 3211, so that the unprocessed steel plate moves to the position below the cutting head 22, and is processed through the cutting head 22, and a second finished steel plate is manufactured;

further, in the second step, the steel plate to be processed is fixed by the pressing plate assembly 23.

Further, in the fifth step, after the second finished steel plate is manufactured, the fourth step and the fifth step are circulated.

The specific operation mode of the invention is as follows:

when the cutting machine is used, a worker puts a first steel plate to be processed into the lifting frame 43, the lifting frame 43 is driven by the winding assembly 41 to rise until the lifting frame 43 is flush with the upper surface of the workbench 10, then the steel plate is pushed into the workbench 10, a groove of a welding surface of the steel plate is processed by the cutting head 22 to obtain a first finished steel plate, the lifting frame 43 is driven by the winding assembly 41 to descend, the pressure bearing frame 3212 is driven by the transmission belt 3213 to be close to the prepared finished steel plate, the pressure bearing frame 3212 is driven by the transmission belt 3213 to be close to the lifting frame 43, the winding assembly 41 drives the lifting frame 43 to be close to the pressure bearing frame 3212 to push a second steel plate to be processed borne by the lifting frame 43 to enter the pressure bearing frame 3212, so that the worker puts the unprocessed steel plate into the upper surface of the workbench 10;

the first finished steel plate that drives through feed back conveyer belt 31 and make is close to crane 43 to after pushing finished steel plate into crane 43, drive transmission band 3213 through first cylinder 3211 and descend, so that unprocessed steel plate removes to cutting head 22 below, and process through cutting head 22, make second finished steel plate, so that the workman takes out the arrangement with the steel plate after processing.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (10)

1. A cutting machine for groove preparation of a steel plate comprises a workbench (10), and is characterized in that one side of the workbench (10) is provided with a cutting device (20), the other side of the workbench is provided with a feeding device (40), and the top end surface of the workbench (10) is provided with a steel plate replacing device (30);

the cutting device (20) comprises a support frame (21) connected with one side surface of the workbench (10) in a sliding mode, a cutting head (22) fixed inside the support frame (21), and a pressing plate assembly (23) fixed outside the support frame (21);

the steel plate replacing device (30) comprises a plurality of equidistantly arranged feed back conveyor belts (31) fixed at the top end of the workbench (10), lifting and feeding assemblies (32) which are arranged at two sides of the plurality of feed back conveyor belts (31) and fixed at the top end of the workbench (10), and a steel plate bracket (33) fixed at an execution end of the lifting and feeding assemblies (32), wherein a plurality of equidistantly arranged brushes (34) are fixed on the lower surface of the steel plate bracket (33);

lifting pay-off subassembly (32) are including locating recess (323) on workstation (10) top are located in proper order inside first feeding mechanism (321) and second feeding mechanism (322) of recess (323), first feeding mechanism (321) are the same with second feeding mechanism (322) structure, first feeding mechanism (321) are including being fixed in first cylinder (3211) in the cell body of recess (323), are fixed in pressure bearing frame (3212) of first cylinder (3211) execution end to and through the bearing frame with transmission band (3213) that the upper surface of pressure bearing frame (3212) is connected.

2. The cutting machine for groove preparation of steel plates according to claim 1, wherein the feeding device (40) comprises a winding assembly (41) disposed inside the worktable (10) and a lifting frame (43) connected to an executing end of the winding assembly (41), wherein symmetrically disposed reinforcing beams (44) are fixed to a lower surface of the lifting frame (43), the reinforcing beams (44) are slidably connected to a sliding rail (42), and the sliding rail (42) is fixed to a side surface of the lifting frame (43) and penetrates through a shell of the lifting frame (43).

3. The cutting machine for groove preparation of steel plate according to claim 2, wherein the winding assembly (41) comprises a winding roller (412) disposed on the upper surface of the pressure bearing frame (3212) and coaxially disposed with the conveyor belt (3213), and a steel cable (413) connecting the winding roller (412) and the lifting frame (43).

4. The cutting machine for beveling a steel plate according to claim 3, wherein the wire rope (413) is in contact with a tension roller (411), and the tension roller (411) is connected to the outer surface of the table (10) through a bearing housing.

5. The cutting machine for groove preparation of steel plates according to claim 1, wherein the pressing plate assembly (23) comprises a second cylinder (231) symmetrically fixed on the outer surface of the supporting frame (21), a first connecting rod (232) hinged to the piston rod of the second cylinder (231), and a second connecting rod (233) hinged to one end of the first connecting rod (232) far away from the second cylinder (231), a rotating shaft (234) rotatably connected to the housing of the supporting frame (21) is arranged at one end of the second connecting rod (233) far away from the first connecting rod (232), and both rotating shafts (234) penetrate through the pressing plate (235).

6. The cutting machine for beveling a steel plate according to claim 1, wherein a sliding device (50) is disposed between the cutting device (20) and the table (10), the sliding device (50) comprises a linear module (51) fixed on the outer surface of the table (10), and a sliding block (52) connected to an actuating end of the linear module (51), and the sliding block (52) is fixed on one side surface of the supporting frame (21).

7. The cutting machine for beveling a steel plate according to claim 1, wherein a plurality of electromagnets (11) are embedded in the upper surface of one end of the table (10) close to the cutting device (20), and the electromagnets (11) are arranged one by one at equal intervals.

8. The machining method of the cutting machine for beveling the steel plate is characterized by comprising the following steps

Step one, a first steel plate to be processed is placed into a lifting frame (43), and the lifting frame (43) is driven by a winding assembly (41) to rise until the lifting frame (43) is flush with the upper surface of a workbench (10);

pushing the steel plate lifted in the step one into a workbench (10), and processing a groove of a welding surface of the steel plate through a cutting head (22) to obtain a first finished steel plate;

step three, the lifting frame (43) is driven to descend by the winding assembly (41), and the pressure bearing frame (3212) is driven by the transmission belt (3213) to be close to the finished steel plate prepared in the step two;

driving the pressure bearing frame (3212) to be close to the lifting frame (43) through the transmission belt (3213), driving the lifting frame (43) to be close to the pressure bearing frame (3212) through the winding assembly (41), so as to push the second steel plate to be processed, which is loaded by the lifting frame (43), to enter the pressure bearing frame (3212);

and fifthly, driving the first finished steel plate manufactured in the third step to be close to the lifting frame (43) through the feed back conveying belt (31), driving the conveying belt (3213) to descend through the first air cylinder (3211) after the finished steel plate is pushed into the lifting frame (43), so that the unprocessed steel plate moves to the position below the cutting head (22), and processing through the cutting head (22) to manufacture a second finished steel plate.

9. The method of claim 8, wherein in the second step, the steel plate to be processed is fixed by a pressing plate assembly (23).

10. The method of claim 8, wherein the fourth and fifth steps are repeated after the second finished steel plate is produced in the fifth step.

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