CN118143518B - Steel frame welding device suitable for building assembly engineering - Google Patents

Abstract

The invention relates to the technical field of steel frame welding, which is used for solving the problems of low assembly efficiency, high risk and low welding precision in the existing steel frame welding process, in particular to a steel frame welding device suitable for building assembly engineering, comprising two lifting support seats, wherein the tops of the two lifting support seats are fixedly connected with a beam, the bottom ends of the lifting support seats are fixedly connected with the top of a base, the top of the beam is provided with a chute, the tops of the beam and the base are fixedly connected with two shaft seats, the invention is characterized in that a threaded rod and a bearing rod are arranged between the two shaft seats at the top of the cross beam, a bearing plate is fixed between the two shaft seats at the top of the base through spot welding, a sliding seat is arranged at the top of the cross beam, a first sliding plate is arranged at the bottom of the cross beam, and a second sliding plate is arranged at the top of the base.

Description

Steel frame welding device suitable for building assembly engineering

Technical Field

The invention relates to the technical field of steel frame welding, in particular to a steel frame welding device suitable for building assembly engineering.

Background

The steel frame is used as a main bearing component in the building assembly engineering, so that the stability and the safety of the building are ensured, a frame is provided for the building, the shape and the size of an inner space are determined, and meanwhile, the steel frame can be used as a supporting structure of the periphery of the building, and is convenient for the reconstruction and the maintenance of the building.

The steel frame is formed by welding and assembling a plurality of groups of steel frame vertical rods and a plurality of groups of steel frame transverse rods, the steel frame transverse rods are required to be horizontally placed in the welding process of the steel frame, then the steel frame vertical rods are required to be mutually matched by a plurality of persons to be erected one by one and are adjusted in position to be vertical to the steel frame transverse rods, then the steel frame vertical rods and the steel frame transverse rods are welded to form a fence type steel frame, the steel frame vertical rods and the steel frame transverse rods have the characteristics of long length and large quality, the conventional steel frame vertical rods are manually operated in carrying, position adjustment and angle adjustment, however, the manual operation has the problems of poor carrying efficiency and high risk coefficient, and meanwhile, the position adjustment and the angle adjustment have large errors, so that the welded steel frame is easy to have the problem of skew and other precision.

In view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims to provide a steel frame welding device suitable for building assembly engineering, which is used for solving the problems of low assembly efficiency, high risk and low welding precision of the existing steel frame welded assemblies which are all assembled manually.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a steelframe welding set suitable for building assembly engineering, includes two lift supporting seat, two the top fixedly connected with crossbeam of lift supporting seat, the bottom fixed connection of lift supporting seat is at the base top, the spout has been seted up at the top of crossbeam, the equal fixedly connected with in top of crossbeam and base two axle bases, be provided with threaded rod and carrier bar between two axle bases in crossbeam top, be fixed with the loading board through spot welding between two axle bases in base top, the top of crossbeam is provided with the sliding seat, the bottom of crossbeam is provided with slide one, the top of base is provided with slide two, be provided with material receiving subassembly between slide one and the slide two, one side of base is provided with material transporting subassembly.

Further, the material conveying assembly comprises a plurality of groups of sliding rails connected end to end and an electric sliding seat, the electric sliding seat is connected in the sliding rails in a sliding manner, a frame plate is symmetrically fixed at the top of the electric sliding seat, and a bearing shaft and a plurality of rotating shafts are arranged on the inner side of the frame plate;

the two ends of the bearing shaft are fixedly connected to the inner side walls of the frame plates, a rotating sleeve is sleeved on the outer side of the circumference of the bearing shaft, the rotating sleeve is movably connected with the bearing shaft through a bearing, a material containing plate is fixedly arranged on the outer side wall of the rotating sleeve through bolts, and a hydraulic clamping jaw is fixedly arranged on the side wall of the material containing plate.

Further, the bottom slope fixedly connected with pull rod of cover rotates, the one end of axis of rotation is through bearing swing joint at the framed board inside wall, two the adjacent one end of axis of rotation is all fixed with the rotor through spot welding, two fixedly connected with quarter butt between the rotor, the outside cover of quarter butt is equipped with the gangbar, the gangbar passes through bearing swing joint with quarter butt, the one end that the rotor was kept away from to the gangbar rotates with the pull rod to be connected.

Further, connect the material subassembly including rotating post and sleeve, the both ends of rotating the post are respectively through bearing swing joint in slide one bottom and slide two tops, the sleeve cover is established and is fixed in the rotation post outside, be fixed with the support column through spot welding between slide one and the slide two, the top fixed mounting of slide two has hydraulic pressure to push away jar one, the circumference outside that the rotation post is close to the bottom is fixed with the drive rail through spot welding, the output fixedly connected with drive block of hydraulic pressure push away jar one, drive block sliding connection is in the drive rail.

Further, the outside of sleeve is fixed with multiunit support through spot welding, and corresponds the support rotation that sets up and be connected with gripper jaw and hydraulic pressure pushing cylinder two, one side of gripper jaw is fixed with the guide rail through spot welding, the output sliding connection of hydraulic pressure pushing cylinder two is in the guide rail of gripper jaw lateral wall.

Further, the lateral wall slope of frame board is fixed with the support frame, the conveyer belt is installed at the top of support frame, the bottom sliding connection of sliding seat is in the spout, slide one fixed connection is in the sliding seat bottom, threaded rod and the thread groove threaded connection that the sliding seat was seted up, the spacing groove sliding connection that carrier bar and sliding seat were seted up, the fixed stop collar sliding connection of spot welding is passed through with two bottoms of slide to the carrier plate.

Further, the bottom of the cross beam and the side wall of the base are fixedly provided with a third hydraulic pushing cylinder, the output end of the third hydraulic pushing cylinder is fixedly connected with a limiting clamping sleeve, the outer side of the frame plate is fixedly provided with a motor for driving the rotating shaft to rotate, the clamping claw is used for clamping the vertical rod piece of the steel frame, and the limiting clamping sleeve is used for clamping the transverse rod piece of the steel frame.

A welding method of a steel frame welding device suitable for building assembly engineering comprises the following steps:

Step one: placing the steel frame vertical rod piece on the top of the conveyor belt, conveying the steel frame vertical rod piece between the hydraulic clamping jaws by the conveyor belt, driving the rotating shaft to rotate by the motor, and driving the material containing plate and the steel frame vertical rod piece to deflect by the cooperation of the linkage rod, the pull rod and the rotating sleeve until the steel frame vertical rod piece is in a state vertical to the ground;

Step two: the clamping claw clamps and fixes the outer side wall of the steel frame vertical rod, then drives the steel frame vertical rod to deflect under the action of the first hydraulic pushing cylinder and the driving rail until the top end and the bottom of the steel frame vertical rod are in contact with the steel frame transverse rod which is correspondingly arranged, and then the welding gun is utilized to weld the joint of the steel frame transverse rod and the steel frame vertical rod;

And then, adjusting the horizontal positions of the clamping claw and the electric sliding seat, arranging and placing the vertical rod pieces of the steel frame at intervals according to the same steps, and continuously welding the vertical rod pieces by using the existing welding gun, so as to finish the assembly welding of the steel frame for the building.

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

1. When the horizontal steel frame vertical rod piece automatic deflection device is used, the material conveying assembly is arranged, the hydraulic clamping jaw is matched with the material containing plate, the rotating shaft, the rotating sheet and the like to carry out angle self-adaptive deflection on the horizontal steel frame vertical rod piece under the transmission of a series of structures, and the conveying efficiency of the steel frame vertical rod piece and the rapid adjustment of the placement angle are obviously improved.

2. When the steel frame welding device is used, the material receiving assembly, the first sliding plate, the second sliding plate and the electric sliding seat are matched with each other, so that accurate and convenient adjustment of the positions of the vertical rod pieces of the steel frame and the transverse arrangement of the vertical rod pieces of the steel frame and the positioning and holding in the welding process are realized, and the welding efficiency and the welding precision of the steel frame are greatly improved.

Drawings

For the convenience of those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

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

FIG. 2 is a schematic perspective view of a lifting support structure according to the present invention;

FIG. 3 is a front view of the welding of the steel frame vertical bars and steel frame horizontal bars of the present invention;

FIG. 4 is a schematic view of a material transporting assembly according to the present invention;

FIG. 5 is an enlarged schematic view of the area A of FIG. 2;

Fig. 6 is a top view of a welded structure of a steel frame transverse rod and a steel frame vertical rod in the present invention.

Reference numerals: 1. lifting the supporting seat; 201. a cross beam; 202. a base; 3. a chute; 4. a threaded rod; 5. a carrier bar; 6. a carrying plate; 701. a sliding seat; 702. a first sliding plate; 8. a second slide plate; 9. a receiving assembly; 901. rotating the column; 902. a sleeve; 903. a hydraulic pushing cylinder I; 904. a drive rail; 905. a guide rail; 906. clamping claws; 907. a hydraulic pushing cylinder II; 10. a material conveying component; 101. a slide rail; 102. an electric slide; 103. a frame plate; 104. a bearing shaft; 105. a rotating shaft; 106. a rotating sleeve; 107. a material containing plate; 108. a hydraulic clamping jaw; 109. a pull rod; 110. a rotating piece; 111. a linkage rod; 11. a support frame; 12. a conveyor belt; 13. a hydraulic pushing cylinder III; 14. a limiting clamping sleeve; 15. a support column; 300. a steel frame vertical rod piece; 400. steel frame transverse rod piece.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

As shown in fig. 1-6, a steel frame welding device suitable for building assembly engineering comprises two lifting support seats 1, wherein the tops of the two lifting support seats 1 are fixedly connected with a beam 201, the bottom ends of the lifting support seats 1 are fixedly connected to the top of a base 202, a sliding groove 3 is formed in the top of the beam 201, the tops of the beam 201 and the base 202 are fixedly connected with two shaft seats, a threaded rod 4 and a bearing rod 5 are arranged between the two shaft seats at the top of the beam 201, a bearing plate 6 is fixed between the two shaft seats at the top of the base 202 through spot welding, a sliding seat 701 is arranged at the top of the beam 201, a first sliding plate 702 is arranged at the bottom of the beam 201, a second sliding plate 8 is arranged at the top of the base 202, a material receiving assembly 9 is arranged between the first sliding plate 702 and the second sliding plate 8, and a material conveying assembly 10 is arranged on one side of the base 202;

The bottom of the beam 201 and the side wall of the base 202 are fixedly provided with a hydraulic pushing cylinder III 13, the output end of the hydraulic pushing cylinder III 13 is fixedly connected with a limit clamping sleeve 14, the outer side of the frame plate 103 is fixedly provided with a motor for driving the rotating shaft 105 to rotate, a clamping claw 906 is used for clamping the steel frame vertical rod 300, the limit clamping sleeve 14 is used for clamping the steel frame horizontal rod 400, the material conveying assembly 10 comprises a plurality of groups of sliding rails 101 connected end to end and an electric sliding seat 102, the electric sliding seat 102 is slidably connected in the sliding rails 101, and the sliding rails 101 can be connected end to end and adjusted according to the length of the steel frame horizontal rod 400, so that the length of the steel frame horizontal rod 400 is matched, and the electric sliding seat 102 can slide at the top of the sliding rails 101 conveniently;

The top symmetry of electronic slide 102 is fixed with frame board 103, and the frame inboard is provided with a loading shaft 104 and many axis of rotation 105, and the both ends of loading shaft 104 are all fixed connection at frame board 103 inside wall, and the circumference outside cover of loading shaft 104 is equipped with and rotates cover 106, rotates cover 106 and loading shaft 104 through bearing swing joint, and the lateral wall that rotates cover 106 is fixed with flourishing flitch 107 through the bolt, and flourishing flitch 107's lateral wall fixed mounting has hydraulic pressure clamping jaw 108.

The bottom slope fixedly connected with pull rod 109 of rotating sleeve 106, the one end of axis of rotation 105 passes through bearing swing joint at the inside wall of framed board 103, and two adjacent one ends of axis of rotation 105 all are fixed with rotor plate 110 through spot welding, fixedly connected with quarter butt between two rotor plates 110, and the outside cover of quarter butt is equipped with the gangbar 111, and the gangbar 111 passes through bearing swing joint with quarter butt, and the one end that rotor plate 110 was kept away from to gangbar 111 rotates with pull rod 109 to be connected.

When the device is specifically arranged, two steel frame transverse rods 400 are positioned between two bases 202, a hydraulic pushing cylinder III 13 is started, the hydraulic pushing cylinder III 13 drives a limiting clamping sleeve 14 to move, the limiting clamping sleeve 14 fixes two ends of the steel frame transverse rods 400, sliding of the steel frame transverse rods 400 in the welding process is avoided, at the moment, the two steel frame transverse rods 400 are clamped and fixed by two groups of limiting clamping sleeves 14, and then labor-saving conveying is carried out on the steel frame vertical rods 300;

Placing the steel frame vertical rod 300 on the top of the conveyor belt 12, conveying the steel frame vertical rod 300 by the conveyor belt 12 until one end of the steel frame vertical rod 300 is positioned between the hydraulic clamping jaws 108, clamping and fixing the outer side of the steel frame vertical rod 300 by the hydraulic clamping jaws 108 after the steel frame vertical rod 300 moves to a specified position, then driving the rotating shaft 105 to rotate by a motor, driving the rotating plate 110 to rotate by the rotating shaft 105, and driving the rotating plate 110 to rotate by a linkage rod 111 of a short rod belt, wherein the linkage rod 111 is matched with the rotating sleeve 106 by a pull rod 109, so that the material containing plate 107 is driven to deflect, and the steel frame vertical rod 300 in a horizontal state is deflected by the material containing plate 107 under a series of transmission until the steel frame vertical rod 300 is in a state vertical to the ground;

example two

As shown in fig. 1-6, the material receiving assembly 9 comprises a rotating column 901 and a sleeve 902, wherein two ends of the rotating column 901 are respectively and movably connected to the bottom of a first sliding plate 702 and the top of a second sliding plate 8 through bearings, the sleeve 902 is sleeved and fixed on the outer side of the rotating column 901, a supporting column 15 is fixed between the first sliding plate 702 and the second sliding plate 8 through spot welding, a first hydraulic pushing cylinder 903 is fixedly arranged on the top of the second sliding plate 8, a driving rail 904 is fixed on the outer side of the circumference of the rotating column 901, which is close to the bottom end, through spot welding, a driving block is fixedly connected to the output end of the first hydraulic pushing cylinder 903, and the driving block is slidably connected in the driving rail 904.

The outside of sleeve 902 is fixed with multiunit support through spot welding, and the support that corresponds the setting rotates and is connected with gripper 906 and hydraulic pressure pushing cylinder two 907, and one side of gripper 906 is fixed with guide rail 905 through spot welding, and the output sliding connection of hydraulic pressure pushing cylinder two 907 is in the guide rail 905 of gripper 906 lateral wall.

The lateral wall slope of frame 103 is fixed with support frame 11, and conveyer belt 12 is installed at the top of support frame 11, and slide seat 701's bottom sliding connection is in spout 3, and slide one 702 fixed connection is in slide seat 701 bottom, and threaded rod 4 and the thread groove threaded connection that slide seat 701 offered, the spacing groove sliding connection that carrier bar 5 and slide seat 701 offered, carrier plate 6 and slide two 8 bottoms pass through the fixed stop collar sliding connection of spot welding.

When the steel frame vertical rod 300 is vertically placed, the hydraulic pushing cylinder II 907 is started, the hydraulic pushing cylinder II 907 rotates through the pushing guide rail 905 to drive the clamping claw 906 to rotate, the clamping claw 906 clamps and fixes the outer side wall of the steel frame vertical rod 300, then the hydraulic pushing cylinder I903 is started again, the hydraulic pushing cylinder I903 pushes the driving rail 904 and the sleeve 902 to deflect, the sleeve 902 drives the rotating column 901 to synchronously deflect, the steel frame vertical rod 300 is driven to synchronously deflect until the top end and the bottom of the steel frame vertical rod 300 are in contact with the corresponding steel frame transverse rod 300, and then the welding gun is utilized to weld the joint of the steel frame transverse rod 300 and the steel frame vertical rod 400, so that the steel frame vertical rod 400 is always in a vertical state, the steel frame vertical rod 300 can be ensured to be always kept stable and the position of the steel frame transverse rod 400 in the welding process, the welding precision of the steel frame vertical rod 300 and the steel frame transverse rod 400 is greatly improved, and meanwhile, the problem that the deflection of the steel frame vertical rod 300 is easy to occur in the welding process is effectively avoided;

The threaded rod 4 drives the sliding seat 701 and the first sliding plate 702 to horizontally move, the first sliding plate 702 drives the second sliding plate 8 to synchronously slide through the plurality of groups of supporting columns 15, the electric sliding seat 102 slides correspondingly in the sliding rail 101, the hydraulic clamping jaw 108 corresponds to the clamping jaw 906, the first sliding plate 702, the second sliding plate 8 and the electric sliding seat 102 are synchronously moved, the vertical rod 300 of the steel frame is placed at intervals, continuous welding is carried out on the vertical rod 300 of the steel frame by utilizing the existing welding gun, and then assembly welding of the steel frame for a building is completed.

According to the first embodiment, through the material conveying assembly 10, the rotating piece 110 is matched with each other through the short rod, the linkage rod 111, the pull rod 109 and the rotating sleeve 106, so that the material containing plate 107 is driven to deflect, the material containing plate 107 deflects the steel frame vertical rod 300 in a horizontal state under a series of transmission, further time-saving and labor-saving conveying and direction adjustment of the steel frame vertical rod 300 are achieved, and the transverse arrangement of the plurality of steel frame vertical rod 300 and the positioning and the maintenance in the welding process are completed through the material receiving assembly 9, so that the welding efficiency and the welding precision of the steel frame are greatly improved.

The foregoing is merely illustrative of the structures of this invention and various modifications, additions and substitutions for those skilled in the art can be made to the described embodiments without departing from the scope of the invention or from the scope of the invention as defined in the accompanying claims.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (4)

1. The utility model provides a steelframe welding set suitable for building assembly engineering, includes two lift supporting seat (1), its characterized in that, two the top fixedly connected with crossbeam (201) of lift supporting seat (1), the bottom fixedly connected with of lift supporting seat (1) is at base (202) top, spout (3) have been seted up at the top of crossbeam (201), two axle bases are all fixedly connected with at the top of crossbeam (201) and base (202), be provided with threaded rod (4) and carrier bar (5) between two axle bases at crossbeam (201) top, be fixed with loading board (6) through spot welding between two axle bases at base (202) top, the top of crossbeam (201) is provided with sliding seat (701), the bottom of crossbeam (201) is provided with slide one (702), the top of base (202) is provided with slide two (8), be provided with between slide one (702) and slide two (8) and connect material subassembly (9), one side of base (202) is provided with fortune material subassembly (10);

The material conveying assembly (10) comprises a plurality of groups of sliding rails (101) and an electric sliding seat (102) which are connected end to end, the electric sliding seat (102) is connected in the sliding rails (101) in a sliding mode, a frame plate (103) is symmetrically fixed at the top of the electric sliding seat (102), and a bearing shaft (104) and a plurality of rotating shafts (105) are arranged on the inner side of the frame plate (103);

Both ends of the bearing shaft (104) are fixedly connected to the inner side wall of the frame plate (103), a rotating sleeve (106) is sleeved on the outer side of the circumference of the bearing shaft (104), the rotating sleeve (106) is movably connected with the bearing shaft (104) through a bearing, a material containing plate (107) is fixed on the outer side wall of the rotating sleeve (106) through bolts, and a hydraulic clamping jaw (108) is fixedly arranged on the side wall of the material containing plate (107);

The bottom of the rotating sleeve (106) is obliquely and fixedly connected with a pull rod (109), one end of the rotating shaft (105) is movably connected to the inner side wall of the frame plate (103) through a bearing, two adjacent ends of the rotating shaft (105) are fixedly provided with rotating pieces (110) through spot welding, a short rod is fixedly connected between the two rotating pieces (110), the outer side of the short rod is sleeved with a linkage rod (111), the linkage rod (111) is movably connected with the short rod through a bearing, and one end, far away from the rotating pieces (110), of the linkage rod (111) is rotatably connected with the pull rod (109);

the material receiving assembly (9) comprises a rotating column (901) and a sleeve (902), wherein two ends of the rotating column (901) are respectively and movably connected to the bottom of a first sliding plate (702) and the top of a second sliding plate (8) through bearings, the sleeve (902) is sleeved and fixed on the outer side of the rotating column (901), a supporting column (15) is fixed between the first sliding plate (702) and the second sliding plate (8) through spot welding, a first hydraulic pushing cylinder (903) is fixedly arranged on the top of the second sliding plate (8), a driving rail (904) is fixed on the outer side of the circumference of the rotating column (901) close to the bottom through spot welding, and a driving block is fixedly connected to the output end of the first hydraulic pushing cylinder (903) and is slidably connected in the driving rail (904);

The outside of sleeve (902) is fixed with multiunit support through the spot welding, and corresponds the support rotation that sets up and be connected with gripper jaw (906) and hydraulic pressure pushing cylinder two (907), one side of gripper jaw (906) is fixed with guide rail (905) through the spot welding, the output sliding connection of hydraulic pressure pushing cylinder two (907) is in guide rail (905) of gripper jaw (906) lateral wall.

2. The steel frame welding device suitable for building assembly engineering according to claim 1, wherein a supporting frame (11) is obliquely fixed on the side wall of the frame plate (103), a conveying belt (12) is installed at the top of the supporting frame (11), the bottom end of the sliding seat (701) is slidably connected in the sliding groove (3), the first sliding plate (702) is fixedly connected to the bottom of the sliding seat (701), the threaded rod (4) is in threaded connection with a threaded groove formed in the sliding seat (701), the supporting rod (5) is slidably connected with a limit groove formed in the sliding seat (701), and the supporting plate (6) is slidably connected with a limit sleeve fixed at the bottom of the second sliding plate (8) through spot welding.

3. The steel frame welding device suitable for the building assembly engineering according to claim 1, wherein the bottom of the cross beam (201) and the side wall of the base (202) are fixedly provided with a hydraulic pushing cylinder III (13), the output end of the hydraulic pushing cylinder III (13) is fixedly connected with a limiting clamping sleeve (14), the outer side of the frame plate (103) is fixedly provided with a motor for driving the rotating shaft (105) to rotate, the clamping claw (906) is used for clamping the steel frame vertical rod (300), and the limiting clamping sleeve (14) is used for clamping the steel frame transverse rod (400).

4. A welding method of a steel frame welding device suitable for building assembly engineering, adopting the steel frame welding device suitable for building assembly engineering according to any one of claims 1-3, characterized by comprising the following steps:

Step one: placing the steel frame vertical rod piece (300) on the top of the conveyor belt (12), conveying the steel frame vertical rod piece (300) between the hydraulic clamping jaws (108) by the conveyor belt (12), driving the rotating shaft (105) to rotate by a motor, and driving the material containing plate (107) and the steel frame vertical rod piece (300) to deflect by the cooperation of the linkage rod (111), the pull rod (109) and the rotating sleeve (106) until the steel frame vertical rod piece (300) is in a state vertical to the ground;

Step two: clamping and fixing are carried out on the outer side wall of the steel frame vertical rod piece (300) by the clamping claw (906), then the steel frame vertical rod piece (300) is driven to deflect under the action of the hydraulic pushing cylinder I (903) and the driving rail (904) until the top end and the bottom of the steel frame vertical rod piece (300) are contacted with the steel frame transverse rod piece (400) which is correspondingly arranged, and then the welding gun is utilized to weld the joint of the steel frame transverse rod piece (400) and the steel frame vertical rod piece (300);

and then, adjusting the horizontal positions of the clamping claw (906) and the electric sliding seat (102), arranging and placing the steel frame vertical rods (300) at intervals according to the same steps, and continuously welding the steel frame vertical rods by using the existing welding gun, so as to finish the assembly welding of the steel frame for the building.