CN112975242A

CN112975242A - Processing technology for steel structure made of steel

Info

Publication number: CN112975242A
Application number: CN202110179649.4A
Authority: CN
Inventors: 梁云燕; 陈文雅
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-09
Filing date: 2021-02-09
Publication date: 2021-06-18

Abstract

The invention discloses a processing technology for a steel structure made of steel, which uses steel processing equipment, wherein the steel processing equipment comprises a base, a supporting frame, a pressing device and a cleaning device, the supporting frame is arranged on the base, the pressing device is arranged on the supporting frame, the cleaning device is arranged on the supporting frame, and the steps of processing the steel by adopting the steel processing equipment are as follows: s1, surface cleaning, S2, loading, S3, pressing, S4, welding and S5: cleaning welding slag; the invention can solve the problems that the welding processing quality is influenced by workpiece deviation in the existing steel structure manufacturing process, the cleaning of welding slag is not thorough, the appearance of the steel structure is influenced by residual welding slag, workers are easily scratched in the subsequent processing process and the like.

Description

Processing technology for steel structure made of steel

Technical Field

The invention belongs to the technical field of steel processing, and particularly relates to a processing technology for manufacturing a steel structure by steel.

Background

Steel is the national construction and realizes the essential important material of four types, it is used extensively, the variety is various, according to the difference of section shape, steel generally divide into the section bar, panel, tubular product and metal product four major types, along with the development of society, the demand of steel product increases day by day, thereby steel makes different steel construction according to different use scenes, wherein angle steel and steel sheet welding preparation steel construction are the comparatively common condition, in current manufacture process, often artificially place angle steel and steel sheet in the workstation, just, welding process, thereby there is welding process work piece skew to influence processingquality, thereby also often there is the clearance thoroughly to the clearance of welding slag after in addition welding, it influences the steel construction outward appearance to remain the welding slag, easy fish tail workman scheduling problem in follow-up course of working.

Disclosure of Invention

The invention aims to provide a processing technology for manufacturing a steel structure by using steel, which solves the problems in the prior art.

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

the utility model provides a steel preparation steel construction processing technology, its used a steel processing equipment, this steel processing equipment includes base, support frame, closing device and cleaning device, and the support frame is installed on the base, and closing device installs on the support frame, and cleaning device installs on the support frame, adopts above-mentioned steel processing equipment to carry out the step of processing to steel as follows:

s1, surface cleaning: cleaning up dirt on the surfaces of a steel plate to be processed and the angle steel, and ensuring that the angle steel can be in close contact with the steel plate;

s2, feeding: placing the steel plate in the step S1 on a base, placing angle steel on two sides of the surface of the steel plate, and placing the side faces of the angle steel in alignment with the side edges of the steel plate;

s3, pressing: pressing and fixing the angle steel on the surface of the steel plate through a pressing device;

s4, welding: welding the contact part of the side face of the angle steel and the side edge of the steel plate in the step S3 to manufacture a required steel structure;

s5: cleaning welding slag: the welding slag generated in the step S4 is removed through a cleaning device, and the welding surface is polished;

ground is arranged in to the base, and the support frame includes U type frame to and install the spliced pole of two parallel arrangement between two U type frames, install the guide rail unit on the U type frame, closing device installs terminal surface under the spliced pole, cleaning device is including removing the seat, remove a movable mounting on the guide rail unit, remove a side and install the clearance cylinder, the clearance base is installed to clearance cylinder output, be equipped with the slagging-off unit on the clearance base and polish the unit.

Further, the base includes support column and work backup pad, and four support columns are installed to the work backup pad bottom surface, and U type seat is installed to work backup pad bottom, is provided with pneumatic cylinder and four telescopic links in the U type seat, and the work backup pad upper surface is equipped with the limiting plate respectively, and first logical groove and second lead to the groove, lie in first logical groove top in the work backup pad and be provided with the mobile workbench, terminal surface fixed connection under the output and the mobile workbench of pneumatic cylinder and four telescopic links, and the second leads to the inslot and is provided with front end fixture.

Further, front end fixture includes L type fixed bolster, and first centre gripping cylinder one end fixed mounting is at L type fixed bolster medial surface, and the other end is connected with the rack, rack bottom surface and L type fixed bolster sliding connection, centre gripping pivot movable mounting are between two medial surfaces in second logical groove, and the gear is installed in the centre gripping pivot, and the gear meshes with the rack mutually, and the centre gripping changes the board and installs in the centre gripping pivot, and the centre gripping changes and installs second centre gripping cylinder on the board, and second centre gripping cylinder output is connected with the centre gripping push pedal.

Further, the guide rail unit includes threaded rod and spacing guide bar, and the threaded rod end is installed in a side of U type frame through the bearing, and the threaded rod front end passes another side of U type frame and guide rail motor's output shaft, and the guide rail motor passes through the motor and bears the seat and install in U type frame side, and spacing guide bar is installed between U type frame, the threaded rod runs through and removes the seat and with remove a screw-thread fit, spacing guide bar run through remove the seat and with remove a sliding fit.

Further, closing device is including the cylinder of polishing, the cylinder output of polishing is connected with and compresses tightly the buffer cylinder, it is equipped with two spacing recesses relatively to compress tightly the buffer cylinder medial surface, compact heap movable mounting is in compressing tightly the buffer cylinder, compact heap upper end both sides are equipped with two spacing lugs relatively, spacing lug and spacing recess sliding fit, be provided with the compression buffer spring in compressing tightly the buffer cylinder, compression buffer spring one end is connected with the interior roof of the buffer cylinder that compresses tightly, the other end is connected with the compact heap roof, it is provided with the connecting plate to compress tightly the buffer cylinder trailing flank, compact heap lower part both sides are provided with two otic placodes relatively, the compact heap both sides are provided with the side compression pole respectively, side compression pole one end is articulated with the otic placode, the other end is provided with the pressure.

Further, the slagging-off unit includes the slagging-off bearer frame, and slagging-off bearer frame bottom is equipped with U type seat, has the bearing diaphragm through rotating round pin axle movable mounting on the U type seat, bears the diaphragm bottom and slagging-off and bears and be equipped with a plurality of first springs between the frame bottom, bears and is equipped with a plurality of second springs between diaphragm bottom and the U type seat side, bears the diaphragm up end left and right sides and is equipped with first slagging-off subassembly and second slagging-off subassembly respectively.

Further, first slagging-off subassembly includes the slagging-off barrel that bears, and the activity is provided with the movable block in the slagging-off barrel, installs the slagging-off shovel on the movable block, and the slagging-off shovel runs through slagging-off barrel and slagging-off carriage respectively, is equipped with a plurality of third springs between movable block bottom and the slagging-off barrel bottom.

Further, the cleaning base comprises a cleaning base body and a base cavity, a first buffer plate and a second buffer plate are slidably mounted in the base cavity, a plurality of first buffer springs are arranged between one side face of the first buffer plate and one side face of the base cavity, a plurality of second buffer springs are arranged between one side face of the second buffer plate and one side face of the base cavity, a first limiting groove is formed in the upper portion of the first buffer plate, and a second limiting groove is formed in the upper portion of the second buffer plate.

Further, the polishing unit is installed between first buffer board and second buffer board, and the unit of polishing is including the carriage of polishing, and the carriage both sides face of polishing is equipped with the stopper respectively, two stoppers respectively with first spacing groove and second spacing groove sliding fit, polish and bear the frame bottom and be equipped with the telescopic link of polishing, the telescopic link outside cover of polishing is equipped with the buffer spring of polishing, buffer spring one end of polishing is connected bottom the carriage with polishing, the other end is connected bottom the base cavity, install polishing motor in the carriage of polishing, polishing motor output shaft end is connected with the head of polishing.

Furthermore, rubber pads are arranged on the lower end faces of the pressing block and the pressing head.

The invention has the beneficial effects that:

the steel plate can be tightly pressed and fixed on the workbench through the pressing device, and the angle steel can be tightly pressed and fixed on the upper surface of the steel plate, so that the subsequent welding processing is facilitated, and the influence on the processing quality due to the deviation of a workpiece in the processing process is prevented;

the first slag removing component and the second slag removing component in the slag removing unit are matched with each other, so that welding slag can be removed more effectively and thoroughly, the polishing effect is better due to the buffering effect of the first buffer plate, the second buffer plate and the polishing buffer spring, the service life of the polishing unit is prolonged, and the processing cost is reduced.

Drawings

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

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

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

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged view of a portion of the compressing device of the present invention and a sectional view taken along line B-B;

FIG. 5 is a cross-sectional view of the cleaning apparatus of the present invention;

Detailed Description

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

Referring to fig. 1 to 5, a steel manufacturing steel structure processing technology uses a steel processing device, the steel processing device includes a base 1, a supporting frame 2, a pressing device 3 and a cleaning device 4, the supporting frame 2 is installed on the base 1, the pressing device 3 is installed on the supporting frame 2, the cleaning device 4 is movably installed on the supporting frame 2, and the steel processing device is adopted to process the steel according to the following steps:

s2, feeding: placing the steel plate in the step S1 on the base 1, placing angle steel on two sides of the surface of the steel plate, and placing the side faces of the angle steel in alignment with the side edges of the steel plate;

s3, pressing: the angle steel is pressed and fixed on the surface of the steel plate through a pressing device 3;

s5: cleaning welding slag: the welding slag generated in the step S4 is removed through the cleaning device 4, and the welding surface is polished;

the base 1 is arranged on the ground, the base 1 comprises support columns 11 and a working support plate 12, four support columns 11 are arranged on the bottom surface of the working support plate 12, a U-shaped seat 13 is arranged at the bottom of the working support plate 12, a hydraulic cylinder 131 and four telescopic rods 132 are arranged in the U-shaped seat 13, a limiting plate 121, a first through groove 122 and a second through groove 123 are respectively arranged on the upper surface of the working support plate 12, a movable workbench 14 is arranged on the working support plate 12 and positioned above the first through groove 122, the output ends of the hydraulic cylinder 131 and the four telescopic rods 132 are fixedly connected with the lower end surface of the movable workbench 14, the hydraulic cylinder 131 can drive the movable workbench 14 to move upwards so as to convey steel materials to be processed on the movable workbench upwards, so that the cleaning device can work conveniently, a front end clamping mechanism 15 is arranged in the second through groove 123, the, one end of the first clamping cylinder 152 is fixedly arranged on the inner side surface of the L-shaped fixed supporting plate 151, the other end is connected with the rack 153, the bottom surface of the rack 153 is connected with the L-shaped fixed supporting plate 151 in a sliding way, the clamping rotating shaft 154 is movably arranged between the two inner side surfaces of the second through groove 123, the gear 155 is arranged on the clamping rotating shaft 154, the gear 155 is meshed with the rack 153, the clamping rotating plate 156 is arranged on the clamping rotating shaft 154, the second clamping cylinder 157 is connected with the clamping push plate 158 at the output end, in the specific work, the first clamping cylinder 152 is started to drive the rack 153 to move so as to drive the gear 155 meshed with the rack 153 to rotate, the gear 155 drives the clamping rotating shaft 154 to rotate so as to drive the clamping rotating plate 156 to rotate, the clamping rotating plate 156 rotates ninety degrees, the second clamping cylinder 157 is started to drive the clamping push plate 158 to move so as to clamp the steel plate and, under the action of the limiting plates 121, the steel plate and the angle steel are clamped and fixed from the front end and the rear end.

The support frame 2 comprises U-shaped frames 21 arranged on two sides of the working support plate 12 and two fixing connecting columns 22 arranged between the two U-shaped frames 21 in parallel, a guide rail unit 211 is arranged on each U-shaped frame 21, each guide rail unit 211 comprises a threaded rod 2111 and two limiting guide rods 2112, the tail ends of the threaded rods 2111 are arranged on one side face of each U-shaped frame 21 through bearings, the front ends of the threaded rods 2111 penetrate through the other side face of each U-shaped frame to be connected with an output shaft of a guide rail motor 2113, the guide rail motors 2113 are arranged on the side faces of the U-shaped frames 21 through motor bearing seats 2114, and the two limiting guide rods 2112 are respectively arranged between the U-shaped frames 21 on the.

The two pressing devices 3 are respectively arranged on the lower end surfaces of the two fixed connecting columns 22, each pressing device 3 comprises a grinding cylinder 31, the output end of each grinding cylinder 31 is connected with a pressing buffer cylinder 32, the inner side surface of each pressing buffer cylinder 32 is relatively provided with two limiting grooves 321, each pressing block 33 is movably arranged in each pressing buffer cylinder 32, the lower end surface of each pressing block 33 is provided with a rubber pad which can increase friction force and prevent the surface of a workpiece from being scratched, two limiting lugs 331 are oppositely arranged on two sides of the upper end of each pressing block 33, each limiting lug 331 is in sliding fit with each limiting groove 321, each pressing buffer cylinder 32 is internally provided with a pressing buffer spring 322, one end of each pressing buffer spring 322 is connected with the inner top wall of each pressing buffer cylinder 32, the other end of each pressing buffer spring is connected with the top wall of each pressing block 33, each pressing block 33 can slowly slide up and down in, the two sides of the pressing block 33 are respectively provided with a side pressing rod 34, one end of the side pressing rod 34 is hinged to the lug plate 332, the other end of the side pressing rod 34 is provided with a pressing head 342, a rubber pad is arranged on the lower end face of the pressing head 342, friction force can be increased to prevent the surface of a workpiece from being scratched, the middle of the side pressing rod 34 is movably connected with the connecting plate 323 through a pin 341, during specific work, the polishing cylinder 31 is started to drive the pressing buffer cylinder 32 to move downwards, so that the pressing block 33 is driven to abut against the upper surface of a steel plate placed on the movable workbench 14, the pressing block 33 slowly slides upwards under the action of the pressing buffer spring 322, under the action of the lug plate 332 and the pin 341, the side pressing rod 34 drives the pressing head 342 to downwards press and place angle steel on the upper surface of the steel plate, and the steel.

The cleaning device 4 comprises a moving seat 41, the moving seat 41 is movably arranged on a guide rail unit 211, a threaded rod 2111 penetrates through the moving seat 41 and is in threaded fit with the moving seat 41, two limit guide rods 2112 respectively penetrate through the moving seat 41 and are in sliding fit with the moving seat 41, a cleaning cylinder 42 is arranged on one side surface of the moving seat 41, a cleaning base 43 is arranged at the output end of the cleaning cylinder 42, a deslagging unit 44 and a polishing unit 45 are arranged on the cleaning base 43, the deslagging unit 44 comprises a deslagging bearing frame 441, a U-shaped seat 442 is arranged at the bottom of the deslagging bearing frame 441, a bearing transverse plate 443 is movably arranged on the U-shaped seat 442 through a rotating pin 4421, a plurality of first springs 4431 are arranged between the bottom of the bearing transverse plate 443 and the bottom of the deslagging bearing frame 441, a plurality of second springs 4432 are arranged between the bottom of the bearing transverse plate 443 and the side surface of the U-shaped seat 442, one side of the bearing transverse plate 443 can slowly rotate for a certain angle around the rotating pin, the left side and the right side of the upper end surface of the bearing transverse plate 443 are respectively provided with a first deslagging assembly 444 and a second deslagging assembly 445, the first deslagging assembly 444 comprises a deslagging bearing cylinder 4441, a moving block 4442 is movably arranged in the deslagging bearing cylinder 4441, a deslagging shovel 4443 is arranged on the moving block 4442, the deslagging shovel 4443 respectively penetrates through the deslagging bearing cylinder 4441 and the deslagging bearing frame 441, a plurality of third springs 4444 are arranged between the bottom of the moving block 4442 and the bottom of the deslagging bearing cylinder 4441, the third springs 4444 play a role of buffering in the working process of the deslagging shovel 4443, the second deslagging assembly 445 has the same structure as the first deslagging assembly 444, and is not repeated herein, when the first deslagging assembly 444 works, the deslagging shovel 4443 bears the force in the process of removing welding slag, so that one end of the transverse plate 443 moves, under the action of the rotating pin shaft 4421, so that the other end of the bearing transverse plate 443 moves in the opposite direction, and further drives the, make the slagging-off shovel of second slagging-off subassembly can hug closely the face of weld more to more effectual shovel removes the welding slag, first slagging-off subassembly 444 and second slagging-off subassembly 445 mutually support, can be more effective clear away the welding slag completely, reinforcing processing effect.

The cleaning base 43 comprises a cleaning base body 431 and a base cavity 432, a first buffer plate 433 and a second buffer plate 434 are slidably mounted in the base cavity 432, a plurality of first buffer springs 435 are arranged between one side surface of the first buffer plate 433 and one side surface of the base cavity 432, a plurality of second buffer springs 436 are arranged between one side surface of the second buffer plate 434 and one side surface of the base cavity 432, a first limit groove 4331 is arranged on the upper portion of the first buffer plate 433, and a second limit groove 4341 is arranged at the upper portion of the second buffer plate 434 in the opposite position.

A polishing unit 45 is arranged between the first buffer plate 433 and the second buffer plate 434, the polishing unit 45 comprises a polishing bearing frame 451, two side surfaces of the polishing bearing frame 451 are respectively provided with a limiting block 4511, the two limiting blocks 4511 are respectively in sliding fit with a first limiting groove 4331 and a second limiting groove 4341, the bottom of the polishing bearing frame 451 is provided with a polishing telescopic rod 452, the outer side of the polishing telescopic rod 452 is sleeved with a polishing buffer spring 453, one end of the polishing buffer spring 453 is connected with the bottom of the polishing bearing frame 451, the other end of the polishing buffer spring 453 is connected with the bottom of the base cavity 432, a polishing motor 454 is arranged in the polishing bearing frame 451, the output end of the polishing motor output shaft 4541 is connected with a polishing head 455, due to poor welding surface flatness, the polishing unit 45 can be acted by forces in all directions during work, and under the buffer action of the first buffer plate 433, the second buffer plate 434 and the polishing, thereby guaranteeing the smooth progress of the polishing work, protecting the polishing unit 45 and prolonging the service life.

The foregoing is merely exemplary and illustrative of the principles of the present invention and various modifications, additions and substitutions of the specific embodiments described herein may be made by those skilled in the art without departing from the principles of the present invention or exceeding the scope of the claims set forth herein.

Claims

1. The utility model provides a steel preparation steel construction processing technology, its used a steel processing equipment, this steel processing equipment includes base (1), support frame (2), closing device (3) and cleaning device (4), install on base (1) support frame (2), install on support frame (2) closing device (3), install on support frame (2) cleaning device (4), its characterized in that adopts above-mentioned steel processing equipment to carry out the step as follows of processing to steel:

s2, feeding: placing the steel plate in the step S1 on the base (1), placing angle steel on two sides of the surface of the steel plate, and placing the side faces of the angle steel in alignment with the side edges of the steel plate;

s3, pressing: the angle steel is pressed and fixed on the surface of the steel plate through a pressing device (3);

s5: cleaning welding slag: the welding slag generated in the step S4 is removed through a cleaning device (4), and the welding surface is polished;

base (1) is arranged in ground, support frame (2) are including U type frame (21), and install two parallel arrangement's between two U type frame (21) fixed connection post (22), install guide rail unit (211) on U type frame (21), the terminal surface is installed under fixed connection post (22) closing device (3), cleaning device (4) are including removing seat (41), remove seat (41) movable mounting on guide rail unit (211), remove seat (41) a side and install clearance cylinder (42), clearance base (43) are installed to clearance cylinder (42) output, be equipped with slag removal unit (44) and unit (45) of polishing on clearance base (43).

2. The processing technique for manufacturing the steel structure by the steel according to claim 1, which is characterized in that: base (1) includes support column (11) and work backup pad (12), four support columns (11) are installed to work backup pad (12) bottom surface, U type seat (13) are installed to work backup pad (12) bottom, be provided with pneumatic cylinder (131) and four telescopic links (132) in U type seat (13), work backup pad (12) upper surface is equipped with limiting plate (121) respectively, first logical groove (122) and second lead to groove (123), it is provided with mobile workbench (14) to lie in first logical groove (122) top on work backup pad (12), the output and the mobile workbench (14) lower extreme fixed connection of pneumatic cylinder (131) and four telescopic links (132), the second leads to and is provided with front end fixture (15) in groove (123).

3. The machining process for manufacturing the steel structure by the steel according to claim 2, wherein the machining process comprises the following steps: front end fixture (15) are including L type fixed support board (151), first centre gripping cylinder (152) one end fixed mounting is in L type fixed support board (151) medial surface, the other end is connected with rack (153), rack (153) bottom surface and L type fixed support board (151) sliding connection, centre gripping pivot (154) movable mounting is led to between two medial surfaces of groove (123) in the second, gear (155) are installed on centre gripping pivot (154), gear (155) and rack (153) mesh mutually, centre gripping commentaries on classics board (156) are installed on centre gripping pivot (154), install second centre gripping cylinder (157) on centre gripping commentaries on classics board (156), second centre gripping cylinder (157) output is connected with centre gripping push pedal (158).

4. The processing technique for manufacturing the steel structure by the steel according to claim 1, which is characterized in that: the guide rail unit (211) comprises a threaded rod (2111) and a limiting guide rod (2112), the tail end of the threaded rod (2111) is installed on one side face of the U-shaped frame (21) through a bearing, the front end of the threaded rod (2111) penetrates through the other side face of the U-shaped frame and is connected with an output shaft of a guide rail motor (2113), the guide rail motor (2113) is installed on the side face of the U-shaped frame (21) through a motor bearing seat (2114), the limiting guide rod (2112) is installed between the U-shaped frame (21), the threaded rod (2111) penetrates through the moving seat (41) and is in threaded fit with the moving seat (41), and the limiting guide rod (2112) penetrates through the moving seat (41) and is in sliding fit with the moving seat.

5. The processing technique for manufacturing the steel structure by the steel according to claim 1, which is characterized in that: the pressing device (3) comprises a grinding cylinder (31), the output end of the grinding cylinder (31) is connected with a pressing buffer cylinder (32), the inner side surface of the pressing buffer cylinder (32) is relatively provided with two limiting grooves (321), a pressing block (33) is movably arranged in the pressing buffer cylinder (32), two limiting lugs (331) are relatively arranged on two sides of the upper end of the pressing block (33), the limiting lugs (331) are in sliding fit with the limiting grooves (321), a pressing buffer spring (322) is arranged in the pressing buffer cylinder (32), one end of the pressing buffer spring (322) is connected with the inner top wall of the pressing buffer cylinder (32), the other end of the pressing buffer spring is connected with the top wall of the pressing block (33), the rear side surface of the pressing buffer cylinder (32) is provided with a connecting plate (323), two lugs (332) are relatively arranged on two sides of the lower part of the pressing block (33), and, one end of the side pressing rod (34) is hinged with the lug plate (332), the other end of the side pressing rod is provided with a pressing head (342), and the middle part of the side pressing rod (34) is movably connected with the connecting plate (323) through a pin shaft (341).

6. The processing technique for manufacturing the steel structure by the steel according to claim 1, which is characterized in that: the slag removal unit (44) comprises a slag removal bearing frame (441), a U-shaped seat (442) is arranged at the bottom of the slag removal bearing frame (441), a bearing transverse plate (443) is movably mounted on the U-shaped seat (442) through a rotating pin shaft (4421), a plurality of first springs (4431) are arranged between the bottom of the bearing transverse plate (443) and the bottom of the slag removal bearing frame (441), a plurality of second springs (4432) are arranged between the bottom of the bearing transverse plate (443) and the side face of the U-shaped seat (442), and a first slag removal assembly (444) and a second slag removal assembly (445) are respectively arranged on the left side and the right side of the upper end face of the bearing transverse plate.

7. The machining process for the steel structure made of the steel products as claimed in claim 6, wherein the machining process comprises the following steps: the first slag removal component (444) comprises a slag removal bearing cylinder (4441), a moving block (4442) is movably arranged in the slag removal bearing cylinder (4441), a slag removal shovel (4443) is mounted on the moving block (4442), the slag removal shovel (4443) penetrates through the slag removal bearing cylinder (4441) and the slag removal bearing frame (441) respectively, and a plurality of third springs (4444) are arranged between the bottom of the moving block (4442) and the bottom of the slag removal bearing cylinder (4441).

8. The machining process for manufacturing the steel structure by the steel according to claim 7, wherein the machining process comprises the following steps: clearance base (43) are including clearance base body (431) and base cavity (432), slidable mounting has first buffer board (433) and second buffer board (434) in base cavity (432), be equipped with a plurality of first buffer spring (435) between first buffer board (433) a side and base cavity (432) a side, be equipped with a plurality of second buffer spring (436) between second buffer board (434) a side and base cavity (432) a side, first buffer board (433) upper portion is equipped with first spacing groove (4331), second buffer board (434) upper portion is equipped with second spacing groove (4341).

9. The processing technique for manufacturing the steel structure by steel according to claim 8, wherein the processing technique comprises the following steps: polishing unit (45) are installed between first buffer board (433) and second buffer board (434), polishing unit (45) are including bearing frame (451) of polishing, bearing frame (451) both sides face of polishing is equipped with stopper (4511) respectively, two stopper (4511) respectively with first spacing groove (4331) and second spacing groove (4341) sliding fit, bearing frame (451) bottom of polishing is equipped with telescopic link (452) of polishing, telescopic link (452) outside cover is equipped with buffer spring (453) of polishing, buffer spring (453) one end of polishing is connected bottom bearing frame (451) of polishing, the other end is connected bottom base cavity (432), install polishing motor (454) in bearing frame (451) of polishing, polishing motor output shaft (4541) output is connected with the head of polishing (455).

10. The machining process for the steel structure made of the steel according to claim 5, wherein the machining process comprises the following steps: rubber pads are arranged on the lower end faces of the pressing block (33) and the pressing head (342).