CN114643427A - Steel frame processing laser cutting equipment convenient to iron tower is built to feeding - Google Patents

Abstract

The invention relates to the technical field of laser cutting equipment, in particular to laser cutting equipment for machining a steel frame built by an iron tower, which is convenient for feeding, and comprises a laser cutting machine body, wherein a rotating structure for driving the laser cutting structure to rotate is arranged on the laser cutting machine body, and a laser cutting structure for cutting angle steel is fixed on the rotating structure; one side of the laser cutting machine body is provided with a supporting structure for placing two angle steels at the same time, and one side of the supporting structure is provided with a storage structure for storing angle steel raw materials; the laser cutting machine body is provided with a guide structure for controlling the two feeding structures, the feeding structures are connected to the guide structure, and the guide structure is connected with a protection structure; two feed structure work of alternate drive of being convenient for make the feeding convenient and fast more, improved the efficiency of cutting greatly, guide structure drive protective structure protects the angle steel of processing simultaneously, effectively prevents wrong feeding, has improved operating efficiency greatly.

Description

Steel frame processing of iron tower built is with laser cutting equipment convenient to feed

Technical Field

The invention relates to the technical field of laser cutting equipment, in particular to laser cutting equipment for machining a steel frame built by an iron tower, which is convenient for feeding.

Background

Along with the rapid development of society, electric power system develops rapidly, and the iron tower has played overhead line's effect in cable system, effectively prevents cable and trees contact, before the iron tower was built, need use cutting equipment to tailor the angle steel material, then the tip direct welding of two adjacent angle steels, perhaps bolted connection behind the welding accessory also uses laser cutting machine to cut at the cutting in-process.

However, need fix the angle steel in cutting process, need can change new angle steel after finishing fixed angle steel processing, operating efficiency is lower, and place the highly fixed of the support frame of angle steel, stack higher or lower not be convenient for take when the angle steel, and need the rotation fit laser cutting head after the angle steel is fixed, it is loaded down with trivial details to use the structure complicacy, the door leaf on the laser cutting machine is the vertical hinged door mostly simultaneously, it is little to open the back space, influence operating efficiency.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides laser cutting equipment for machining a steel frame built by an iron tower, which is convenient for feeding.

The technical scheme adopted by the invention for solving the technical problems is as follows: a laser cutting device convenient for feeding and used for machining a steel frame built on an iron tower comprises a laser cutting machine body, wherein a sealing structure used for protection is arranged on the laser cutting machine body, a fixing structure used for fixing the cutting end of an angle steel is arranged inside the laser cutting machine body, a rotating structure used for driving the laser cutting structure to rotate is arranged on the laser cutting machine body, and a laser cutting structure used for cutting the angle steel is fixed on the rotating structure; a supporting structure for placing two angle steels at the same time is arranged on one side of the laser cutting machine body, and a storage structure for storing raw materials of the angle steels is arranged on one side of the supporting structure; the laser cutting machine is characterized in that a guide structure for controlling two feeding structures is arranged on the laser cutting machine body, the feeding structures are connected to the guide structure, and a protection structure is connected to the guide structure;

the utility model discloses a laser cutting machine, including the bearing frame, the bearing frame is fixed in the laser cutting machine body, the inside of bearing frame is rotated and is connected with first pivot, be fixed with the dog of V-arrangement structure in the first pivot, be fixed with the third gear in the first pivot, it is connected with two gyro wheels to rotate on the third gear, gyro wheel and transfer line roll connection, the transfer line is fixed in smooth frame, sliding connection, two between smooth frame and the bearing frame sliding direction of smooth frame is opposite, one of them be equipped with the third pneumatic cylinder between smooth frame and the bearing frame, be equipped with feeding structure on the smooth frame, it is connected with two third leading wheels to rotate on the bearing frame, the diameter of third leading wheel is crescent from centre to both ends.

Specifically, feed structure includes the second motor, be fixed with the second motor on the smooth frame, it is connected with the drive shaft to rotate on the smooth frame, all be fixed with the band pulley on the output shaft of drive shaft and second motor, the winding has the belt on the band pulley, be fixed with the drive wheel on the drive shaft.

Specifically, the diameter of the driving wheel is gradually reduced from the middle to the two ends, and the driving wheel is arranged at the top end of the third guide wheel.

Specifically, protective structure includes the transmission shaft, it is connected with the transmission shaft to rotate on the carriage, be fixed with second gear and guard plate on the transmission shaft.

Specifically, the supporting structure comprises a shell, the shell is fixed on one side of the laser cutting machine body, a plurality of door leaves are connected to the shell through hinges, two baffles are fixed to two ends of the shell, a plurality of guide rails are arranged at the bottom end of the shell, two grooves are formed in the shell, a first guide wheel connected with the shell in a rotating mode is arranged inside each groove, and the first guide wheel and the third guide wheel are identical in size and shape.

Specifically, the storage structure includes the connection frame, sliding connection has the connection frame on the shell, the top of connection frame is fixed with the bracing piece that sets up towards the recess slope, the equidistance is equipped with the second leading wheel that a plurality of rotations are connected on the bracing piece, sliding connection between connection frame and the guide rail, the one end of second pneumatic cylinder is fixed in the shell, the other end of second pneumatic cylinder is fixed in the connection frame.

Specifically, revolution mechanic includes the drive ring, it is connected with the drive ring to rotate on the laser cutting machine body, the outside of drive ring is fixed with the ring gear, ring gear and first gear engagement, first gear is fixed in the output shaft of first motor, first motor is fixed in on the laser cutting machine body.

Specifically, the laser cutting structure includes the overcoat, sliding connection has the overcoat on the driving ring, be fixed with the seventh pneumatic cylinder on the driving ring, the flexible end of seventh pneumatic cylinder is fixed in the overcoat, sliding connection has the laser cutting head on the overcoat, be connected with the spring between laser cutting head and the overcoat.

The fixed knot constructs including the guide block, sliding connection has the guide block on the laser cutting machine body, be fixed with the second connecting rod on the guide block, the second connecting rod with be fixed with the fourth pneumatic cylinder between the laser cutting machine body, the bottom mounting of second connecting rod has fixed frame, be fixed with the fifth pneumatic cylinder on the fixed frame, the bottom mounting of fifth pneumatic cylinder has the clamp plate, sliding connection between clamp plate and the fixed frame, the bottom mounting of clamp plate has the rubber pad, be fixed with the sixth pneumatic cylinder on the laser cutting machine body, be fixed with the drive block on the sixth pneumatic cylinder, the slip direction of drive block is perpendicular with the slip direction of guide block.

Specifically, seal structure includes first pneumatic cylinder, be fixed with first pneumatic cylinder on the laser cutting machine body, the top of first pneumatic cylinder is equipped with the head rod, the one end that the head rod deviates from first pneumatic cylinder is connected in the door frame, the door frame with sliding connection between the laser cutting machine body, be fixed with toughened glass on the door frame.

The invention has the beneficial effects that:

(1) according to the laser cutting equipment for processing the steel frame built by the iron tower and convenient to feed, the supporting structure for placing two angle steels simultaneously is arranged on one side of the laser cutting machine body, the storage structure for storing raw materials of the angle steels is arranged on one side of the supporting structure, so that the height of the angle steels at the top end of the storage structure can be conveniently adjusted, the operation comfort level is greatly improved, meanwhile, the arrangement of the supporting structure is convenient for placing two angle steels to be cut simultaneously, the installation of another angle steel is convenient when one angle steel is cut, and the operation efficiency is greatly improved.

(2) According to the laser cutting equipment for machining the steel frame built on the iron tower and convenient to feed, the guide structures for controlling the two feeding structures are arranged on the laser cutting machine body, the feeding structures are connected to the guide structures, the protection structures are connected to the guide structures, the guide structures are arranged to facilitate positioning of the end portions of the angle steel and facilitate driving of the two feeding structures alternately, feeding is enabled to be more convenient and rapid, cutting efficiency is greatly improved, meanwhile, the guide structures drive the protection structures to protect the machined angle steel, mistaken feeding is effectively prevented, and operating efficiency is greatly improved.

(3) According to the laser cutting equipment for machining the steel frame built by the iron tower convenient to feed, which is disclosed by the invention, the fixing structure for fixing the cutting end of the angle steel is arranged in the laser cutting machine body, the rotating structure for driving the laser cutting structure to rotate is arranged on the laser cutting machine body, the laser cutting structure for cutting the angle steel is fixed on the rotating structure, and the rotating structure drives the laser cutting structure to rotate, so that the angle steel is cut in a surrounding manner, the local part of the angle steel is effectively prevented from being at high temperature for a long time, the cutting is smoother, the feeding assembly is simplified, the fixing structure is convenient to fix and unload the cutting end, and the operation efficiency is greatly improved.

(4) According to the laser cutting equipment for processing the steel frame built by the iron tower and capable of facilitating feeding, the sealing structure for protection is arranged on the laser cutting machine body, the sealing structure is convenient to maintain, the front side of the laser cutting machine body is completely exposed, and the maintenance efficiency and the quality are greatly improved.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

Fig. 1 is a schematic overall structural diagram of a preferred embodiment of a laser cutting apparatus for steel frame processing, which is convenient for feeding and is used for iron tower construction, provided by the invention;

FIG. 2 is an enlarged view of the part A shown in FIG. 1;

FIG. 3 is an enlarged view of the structure of the portion B shown in FIG. 1;

FIG. 4 is an enlarged view of the structure of the portion C shown in FIG. 1;

FIG. 5 is a schematic view of the connection structure of the guiding structure and the laser cutting machine body according to the present invention;

FIG. 6 is an enlarged view of the structure of the portion D shown in FIG. 5;

FIG. 7 is a schematic view of the connection structure of the guiding structure and the feeding structure of the present invention;

FIG. 8 is a schematic structural view of a guide structure of the present invention;

FIG. 9 is a schematic view of a connection structure between the laser cutting machine body and the fixing structure according to the present invention;

FIG. 10 is an enlarged view of the structure of the section E shown in FIG. 9;

FIG. 11 is an enlarged view of the structure of the portion F shown in FIG. 9;

fig. 12 is an enlarged view of the structure of the G portion shown in fig. 9.

In the figure: 1. a rotating structure; 101. a first motor; 102. a first gear; 103. a drive ring; 104. a ring gear; 2. a sealing structure; 201. tempering the glass; 202. a door frame; 203. a first connecting rod; 204. a first hydraulic cylinder; 3. a support structure; 301. a door leaf; 302. a housing; 303. a baffle plate; 304. a guide rail; 305. a first guide wheel; 306. a groove; 4. a storage structure; 401. a connecting frame; 402. a second hydraulic cylinder; 403. a second guide wheel; 404. a support bar; 5. a protective structure; 501. a protection plate; 502. a drive shaft; 503. a second gear; 6. a guide structure; 601. a support frame; 602. a third hydraulic cylinder; 603. a slide frame; 604. a roller; 605. a first rotating shaft; 606. a transmission rod; 607. a third guide wheel; 608. a stopper; 609. a third gear; 7. a feed structure; 701. a second motor; 702. a belt; 703. a pulley; 704. a drive shaft; 705. a drive wheel; 8. a fixed structure; 801. a guide block; 802. a second connecting rod; 803. a fourth hydraulic cylinder; 804. a fixing frame; 805. pressing a plate; 806. a drive block; 807. a fifth hydraulic cylinder; 808. a sixth hydraulic cylinder; 809. a rubber pad; 9. laser cutting the structure; 901. a seventh hydraulic cylinder; 902. a jacket; 903. a laser cutting head; 904. a spring; 10. laser cutting machine body.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-12, the laser cutting equipment for machining a steel frame built on an iron tower convenient for feeding comprises a laser cutting machine body 10, wherein a sealing structure 2 for protection is arranged on the laser cutting machine body 10, a fixing structure 8 for fixing the cutting end of an angle steel is arranged inside the laser cutting machine body 10, a rotating structure 1 for driving the laser cutting structure 9 to rotate is arranged on the laser cutting machine body 10, and the laser cutting structure 9 for cutting the angle steel is fixed on the rotating structure 1; a supporting structure 3 for placing two angle steels at the same time is arranged on one side of the laser cutting machine body 10, and a storage structure 4 for storing raw materials of the angle steels is arranged on one side of the supporting structure 3; the laser cutting machine is characterized in that a guide structure 6 for controlling two feeding structures 7 is arranged on the laser cutting machine body 10, the feeding structures 7 are connected to the guide structure 6, and a protection structure 5 is connected to the guide structure 6;

the guide structure 6 comprises a support frame 601, the support frame 601 is fixed to the laser cutting machine body 10, a first rotating shaft 605 is rotatably connected inside the support frame 601, a V-shaped block 608 is fixed to the first rotating shaft 605, a third gear 609 is fixed to the first rotating shaft 605, two rollers 604 are rotatably connected to the third gear 609, the rollers 604 are in rolling connection with a transmission rod 606, the transmission rod 606 is fixed to a sliding frame 603, the sliding frame 603 and the support frame 601 are in sliding connection, the sliding directions of the two sliding frames 603 are opposite, a third hydraulic cylinder 602 is arranged between one of the sliding frames 603 and the support frame 601, a feeding structure 7 is arranged on the sliding frame 603, two third guide wheels 607 are rotatably connected to the support frame 601, and the diameter of the third guide wheels 607 gradually increases from the middle to the two ends.

Specifically, the feeding structure 7 includes a second motor 701, the second motor 701 is fixed on the sliding frame 603, the sliding frame 603 is rotatably connected with a driving shaft 704, belt pulleys 703 are fixed on the driving shaft 704 and output shafts of the second motor 701, a belt 702 is wound on the belt pulleys 703, and a driving wheel 705 is fixed on the driving shaft 704, so that the driving wheel 705 drives the angle steel to move, and the rapid feeding is realized.

Specifically, the diameter of the driving wheel 705 is gradually reduced from the middle to the two ends, the driving wheel 705 is arranged at the top end of the third guide wheel 607, so that the driving wheel is matched with the third guide wheel 607 to extrude the two sides of the angle steel, the angle of the angle steel cannot be changed, and the stability of fixing the angle steel is greatly improved.

Specifically, protective structure 5 includes transmission shaft 502, it is connected with transmission shaft 502 to rotate on the carriage 601, be fixed with second gear 503 and guard plate 501 on the transmission shaft 502, be convenient for protect the angle steel in the course of working, effectively prevent the maloperation.

Specifically, the supporting structure 3 includes a shell 302, one side of the laser cutting machine body 10 is fixed with the shell 302, a plurality of door leaves 301 are hinged to the shell 302, two baffles 303 are fixed to two ends of the shell 302, a plurality of guide rails 304 are arranged at the bottom end of the shell 302, two grooves 306 are arranged on the shell 302, a first guide wheel 305 connected with the shell 302 in a rotating mode is arranged inside the groove 306, the first guide wheel 305 and a third guide wheel 607 are identical in size and shape, two pieces of angle steel to be cut can be conveniently placed at the same time, another piece of angle steel can be conveniently installed when one piece of angle steel is cut, and the operating efficiency is greatly improved.

Specifically, storage structure 4 includes connection frame 401, sliding connection has connection frame 401 on the shell 302, connection frame 401's top is fixed with the bracing piece 404 towards recess 306 slope setting, the equidistance is equipped with the second leading wheel 403 that a plurality of rotations are connected on the bracing piece 404, sliding connection between connection frame 401 and the guide rail 304, the one end of second pneumatic cylinder 402 is fixed in shell 302, the other end of second pneumatic cylinder 402 is fixed in connection frame 401, is convenient for adjust the height of the angle steel on storage structure 4 top, has improved operating comfort greatly.

Specifically, the rotating structure 1 comprises a transmission ring 103, the laser cutting machine body 10 is rotatably connected with the transmission ring 103, a gear ring 104 is fixed on the outer part of the transmission ring 103, the gear ring 104 is meshed with the first gear 102, the first gear 102 is fixed on the output shaft of the first motor 101, the first motor 101 is fixed on the laser cutting machine body 10, the laser cutting structure 9 comprises an outer sleeve 902, the outer sleeve 902 is slidably connected with the transmission ring 103, a seventh hydraulic cylinder 901 is fixed on the transmission ring 103, the telescopic end of the seventh hydraulic cylinder 901 is fixed on the outer sleeve 902, sliding connection has laser cutting head 903 on the overcoat 902, be connected with spring 904 between laser cutting head 903 and the overcoat 902, make the surrounding type cut the angle steel, effectually avoided the angle steel part to be in high temperature for a long time, make the cutting more level and more smooth, simplified feeding component simultaneously.

Specifically, the fixing structure 8 includes a guide block 801, the guide block 801 is slidably connected to the laser cutting machine body 10, a second connecting rod 802 is fixed on the guide block 801, a fourth hydraulic cylinder 803 is fixed between the second connecting rod 802 and the laser cutting machine body 10, a fixed frame 804 is fixed at the bottom end of the second connecting rod 802, a fifth hydraulic cylinder 807 is fixed on the fixed frame 804, a pressure plate 805 is fixed at the bottom end of the fifth hydraulic cylinder 807, the pressure plate 805 is connected with the fixed frame 804 in a sliding way, a rubber pad 809 is fixed at the bottom end of the pressure plate 805, a sixth hydraulic cylinder 808 is fixed on the laser cutting machine body 10, a driving block 806 is fixed on the sixth hydraulic cylinder 808, and the sliding direction of the driving block 806 is perpendicular to that of the guide block 801, so that the cutting end can be conveniently fixed and unloaded, and the operation efficiency is greatly improved.

Specifically, seal structure 2 includes first pneumatic cylinder 204, be fixed with first pneumatic cylinder 204 on the laser cutting machine body 10, the top of first pneumatic cylinder 204 is equipped with head rod 203, the one end that head rod 203 deviates from first pneumatic cylinder 204 is connected in door frame 202, door frame 202 with sliding connection between the laser cutting machine body 10, be fixed with toughened glass 201 on the door frame 202, make the front side of laser cutting machine body 10 expose completely when the easy access is maintained, improved the efficiency and the quality of maintenance greatly.

When the angle steel lifting device is used, angle steel is firstly conveyed to the top end of a supporting rod 404 through a forklift or a lifting assembly, a plurality of second guide wheels 403 which are rotatably connected are arranged at the top end of the supporting rod 404, the supporting rod 404 is obliquely arranged, so that the angle steel is conveniently gathered towards the direction of a groove 306, after the groove at the top end is taken, a second hydraulic cylinder 402 is controlled to extend to drive a connecting frame 401 to slide with a guide rail 304, so that the height of the supporting rod 404 is increased, and the taking of the angle steel is more convenient and rapid, at the moment, a protection plate 501 is positioned at the top end of one groove 306, the angle steel is placed into the other groove 306, the angle steel is simultaneously pushed, the angle steel drives a first guide wheel 305 and a third guide wheel 607 to rotate, so that the pushing of the angle steel is more convenient, then the angle steel is abutted against a stop 608, so that the angle steel is conveniently positioned, and the diameters of the third guide wheel 607 and the first guide wheel 305 are gradually increased from the middle to two ends, the diameter of the driving wheel 705 is gradually reduced from the middle to the two ends, so that the installation direction and the angle of the angle steel are fixed, and the fixing quality of the angle steel is greatly improved;

when feeding is needed, a driving wheel 705 which is abutted against the angle steel rotates, a belt wheel 703 on a second motor 701 drives a belt wheel 703 on a driving shaft 704 to rotate through a belt 702, so that the driving wheel 705 rotates to drive the angle steel to penetrate through a transmission ring 103 and extend to a position between a fixing frame 804 and a rubber pad 809, then a sixth hydraulic cylinder 808 contracts to drive a driving block 806 not to be contacted with the angle steel, meanwhile, the fixing frame 804 is positioned at one side facing the transmission ring 103, a fifth hydraulic cylinder 807 extends to drive a pressing plate 805 to drive the rubber pad 809 to abut against the angle steel, the angle steel is fixed, then a first motor 101 drives a first gear 102 to rotate, the first gear 102 drives a gear ring 104 to rotate, so that the transmission ring 103 is driven to rotate, the transmission ring 103 drives a laser cutting head 903 to move circumferentially, the angle steel is cut in a surrounding manner, the local part of the angle steel is effectively prevented from being at high temperature for a long time, the cutting is smoother, and the feeding assembly is simplified, meanwhile, according to actual conditions, the seventh hydraulic cylinder 901 can drive the outer sleeve 902 and the transmission ring 103 to slide, the distance between the laser cutting head 903 and the angle steel is adjusted, the adaptability of the laser cutting head 903 is enabled to be stronger, when the laser cutting head 903 touches a foreign body, the laser cutting head 903 is abutted against the spring 904, the laser cutting head 903 and the outer sleeve 902 slide, and the laser cutting head 903 is effectively prevented from being damaged;

after the angle steel is cut, the fourth hydraulic cylinder 803 contracts to drive the second connecting rod 802, so that the guide block 801 and the laser cutting machine body 10 slide to drive the fixing frame 804 to move leftwards, the cut angle steel slides out of the position of the transmission ring 103, the fifth hydraulic cylinder 807 contracts to drive the rubber pad 809 to separate from the angle steel, the sixth hydraulic cylinder 808 extends to drive the driving block 806, and the driving block 806 pushes the angle steel out, so that the angle steel falls onto a conveying belt at the bottom end (the conveying belt can be arranged inside the laser cutting machine body 10, so that the conveying is positioned at the bottom end of the fixing frame 804, and the processed angle steel can be conveyed out conveniently);

after the whole angle steel is machined, one of the sliding frames 603 is driven to move by changing the length of the third hydraulic cylinder 602, the transmission rod 606 on the sliding frame 603 drives the roller 604 to rotate, the roller 604 drives the third gear 609 to rotate, as the two rollers 604 are symmetrically arranged on the third gear 609, the sliding directions of the two sliding frames 603 are opposite, the driving wheel 705 is abutted against the other placed angle steel for substitute machining, meanwhile, the third gear 609 rotates to drive the first rotating shaft 605 to rotate, the first rotating shaft 605 drives the stop block 608 to rotate, so that one side of the groove 306 to be charged is shielded, meanwhile, the third gear 609 drives the second gear 503 to rotate, so that the transmission shaft 502 drives the protection plate 501 to rotate to shield the top end of the groove 306 in the machining process, thereby effectively preventing charging errors and greatly improving the charging efficiency and the charging quality;

when needs are overhauled laser cutting machine body 10 is inside, first pneumatic cylinder 204 extension drive head rod 203 drives door frame 202 and slides to the top of laser cutting machine body 10, and then does not shelter from laser cutting machine body 10, has improved the efficiency of overhauing the maintenance greatly, and the setting of toughened glass 201 is convenient for observe the inside processing condition of laser cutting machine body 10 simultaneously.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The laser cutting equipment for machining the steel frame built on the iron tower and convenient to feed is characterized by comprising a laser cutting machine body (10), wherein a sealing structure (2) for protection is arranged on the laser cutting machine body (10), a fixing structure (8) for fixing the cutting end of the angle steel is arranged inside the laser cutting machine body (10), a rotating structure (1) for driving the laser cutting structure (9) to rotate is arranged on the laser cutting machine body (10), and the laser cutting structure (9) for cutting the angle steel is fixed on the rotating structure (1); a supporting structure (3) for placing two angle steels at the same time is arranged on one side of the laser cutting machine body (10), and a storage structure (4) for storing angle steel raw materials is arranged on one side of the supporting structure (3); the laser cutting machine is characterized in that a guide structure (6) used for controlling two feeding structures (7) is arranged on the laser cutting machine body (10), the feeding structures (7) are connected to the guide structure (6), and a protection structure (5) is connected to the guide structure (6);

the guide structure (6) comprises a support frame (601), the support frame (601) is fixed on the laser cutting machine body (10), a first rotating shaft (605) is rotatably connected inside the support frame (601), a stop block (608) with a V-shaped structure is fixed on the first rotating shaft (605), a third gear (609) is fixed on the first rotating shaft (605), two rollers (604) are rotatably connected on the third gear (609), the rollers (604) are connected with a transmission rod (606) in a rolling manner, the transmission rod (606) is fixed on a sliding frame (603), the sliding frame (603) is in sliding connection with the support frame (601), the sliding directions of the two sliding frames (603) are opposite, a third hydraulic cylinder (602) is arranged between one of the sliding frames (603) and the support frame (601), a feeding structure (7) is arranged on the sliding frame (603), two third guide wheels (607) are rotatably connected on the support frame (601), the diameter of the third guide wheel (607) is gradually increased from the middle to both ends.

2. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 1, is characterized in that: the feeding structure (7) comprises a second motor (701), the sliding frame (603) is fixedly provided with the second motor (701), the sliding frame (603) is rotatably connected with a driving shaft (704), belt pulleys (703) are fixedly arranged on output shafts of the driving shaft (704) and the second motor (701), a belt (702) is wound on each belt pulley (703), and a driving wheel (705) is fixedly arranged on each driving shaft (704).

3. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 2, is characterized in that: the diameter of the driving wheel (705) is gradually reduced from the middle to two ends, and the driving wheel (705) is arranged at the top end of the third guide wheel (607).

4. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 2, is characterized in that: protective structure (5) include transmission shaft (502), it has transmission shaft (502) to rotate on carriage (601), be fixed with second gear (503) and guard plate (501) on transmission shaft (502).

5. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 1, is characterized in that: the supporting structure (3) comprises a shell (302), wherein the shell (302) is fixed on one side of the laser cutting machine body (10), a plurality of door leaves (301) are connected to the shell (302) in a hinged mode, two baffles (303) are fixed to two ends of the shell (302), a plurality of guide rails (304) are arranged at the bottom end of the shell (302), two grooves (306) are formed in the shell (302), a first guide wheel (305) rotatably connected with the shell (302) is arranged inside the grooves (306), and the first guide wheel (305) and a third guide wheel (607) are identical in size and shape.

6. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 5, is characterized in that: storage structure (4) are including connection frame (401), sliding connection has connection frame (401) on shell (302), the top of connection frame (401) is fixed with bracing piece (404) that slope set up towards recess (306), bracing piece (404) are equidistantly equipped with second leading wheel (403) that a plurality of rotations are connected, sliding connection between connection frame (401) and guide rail (304), the one end of second pneumatic cylinder (402) is fixed in shell (302), the other end of second pneumatic cylinder (402) is fixed in connection frame (401).

7. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 1, is characterized in that: revolution mechanic (1) is including transmission ring (103), it has transmission ring (103) to rotate on laser cutting machine body (10), the outside of transmission ring (103) is fixed with ring gear (104), ring gear (104) and first gear (102) meshing, first gear (102) are fixed in the output shaft of first motor (101), first motor (101) are fixed in on laser cutting machine body (10).

8. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 7, is characterized in that: the laser cutting structure (9) comprises an outer sleeve (902), the outer sleeve (902) is connected to the transmission ring (103) in a sliding mode, a seventh hydraulic cylinder (901) is fixed to the transmission ring (103), the telescopic end of the seventh hydraulic cylinder (901) is fixed to the outer sleeve (902), a laser cutting head (903) is connected to the outer sleeve (902) in a sliding mode, and a spring (904) is connected between the laser cutting head (903) and the outer sleeve (902).

9. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 1, is characterized in that: the fixing structure (8) comprises a guide block (801), the laser cutting machine body (10) is connected with the guide block (801) in a sliding way, a second connecting rod (802) is fixed on the guide block (801), a fourth hydraulic cylinder (803) is fixed between the second connecting rod (802) and the laser cutting machine body (10), a fixed frame (804) is fixed at the bottom end of the second connecting rod (802), a fifth hydraulic cylinder (807) is fixed on the fixed frame (804), a pressure plate (805) is fixed at the bottom end of the fifth hydraulic cylinder (807), the pressure plate (805) is in sliding connection with the fixed frame (804), a rubber pad (809) is fixed at the bottom end of the pressure plate (805), a sixth hydraulic cylinder (808) is fixed on the laser cutting machine body (10), and a driving block (806) is fixed on the sixth hydraulic cylinder (808), and the sliding direction of the driving block (806) is vertical to the sliding direction of the guide block (801).

10. The laser cutting equipment for processing the steel frame built by the iron tower convenient for feeding according to claim 1, is characterized in that: seal structure (2) include first pneumatic cylinder (204), be fixed with first pneumatic cylinder (204) on laser cutting machine body (10), the top of first pneumatic cylinder (204) is equipped with head rod (203), head rod (203) deviate from the one end of first pneumatic cylinder (204) and connect in door frame (202), door frame (202) with sliding connection between laser cutting machine body (10), be fixed with toughened glass (201) on door frame (202).

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