CN112222780A - Manufacturing method of beam column of steel-concrete building structure - Google Patents

Abstract

The invention relates to a method for manufacturing a beam column of a steel-concrete building structure, which mainly comprises the following steps: the square steel reinforcement cage forming equipment comprises a mounting frame, a clamping external member and an extrusion external member, wherein the clamping external member and the extrusion external member are sequentially arranged in the mounting frame from bottom to top, and the square steel reinforcement cage forming equipment can solve the following problems existing in the production and preparation of the conventional steel reinforcement cage: a: when the conventional reinforcement cage is produced and prepared, in order to increase the stability of the reinforcement cage, surrounding ribs are often uniformly arranged on the periphery of the reinforcement cage by manpower, so that the reinforcement cage is often deformed, the quality of the reinforcement cage is easy to cause problems, manual restitution is needed, and the workload of workers is greatly increased; b: when the existing reinforcement cage is manufactured into a square shape, gaps often appear at the corners of the reinforcement cage, so that the stability of the reinforcement cage is greatly reduced, and certain potential safety hazards exist.

Description

Manufacturing method of beam column of steel-concrete building structure

Technical Field

The invention relates to the technical field of manufacturing of steel-concrete building beams and columns, in particular to a manufacturing method of a steel-concrete building structure beam and column.

Background

In the process of building an existing house, in order to guarantee stability of the house, a reinforcement cage is often placed in the house building, and is made into a supporting beam column through the reinforcement cage for increasing stability of the house, so that the house is called as a reinforced concrete building.

The prior reinforcement cage has the following problems in production and preparation: a: when the conventional reinforcement cage is produced and prepared, in order to increase the stability of the reinforcement cage, surrounding ribs are often uniformly arranged on the periphery of the reinforcement cage by manpower, so that the reinforcement cage is often deformed, the quality of the reinforcement cage is easy to cause problems, manual restitution is needed, and the workload of workers is greatly increased; b: when the existing reinforcement cage is manufactured into a square shape, gaps often appear at the corners of the reinforcement cage, so that the stability of the reinforcement cage is greatly reduced, and certain potential safety hazards exist.

Disclosure of Invention

In order to solve the problems, the invention provides a method for manufacturing a beam column of a steel-concrete building structure, which uses a square reinforcement cage forming device and can solve the problems of the reinforcement cage in production and preparation.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a manufacturing method of a beam column of a steel-concrete building structure mainly comprises the following steps:

the method comprises the following steps: equipment inspection: before the square reinforcement cage forming equipment is started to produce the square reinforcement cage, the operation of the equipment is checked;

step two: manual feeding: placing the steel bar of the artificial box on a material clamping frame, working the material clamping frame to clamp the steel bar, then manually placing the steel bar on a steel wire frame, and welding one end of the steel bar and the steel bar together, thereby completing the manual feeding operation;

step three: forming a reinforcement cage: after manual feeding operation is completed, the first motor works to drive the rotating grooved pulley to rotate intermittently through the driving rod, so that the clamping frame is driven to rotate intermittently through the action of the bearing rotating column, the extrusion wheel extrudes surface reinforcing steel bars under the action of the connecting rod in the rotating process, the reinforcing steel bars are always attached to the steel bars, and when the clamping frame stops rotating, the second hydraulic cylinder works to drive the pressing frame to extrude the turning positions of the reinforcing steel bars, so that the attaching degree of the bending steel bars is increased, and the forming operation of a reinforcement cage is completed;

step four: fixing and welding: after the forming operation of the reinforcement cage in the step three is completed, the hydraulic cylinder III works to drive the cutting knife to cut off the reinforcement, and then the tail end and the head of the reinforcement are welded together manually, so that the purpose of fixed welding is achieved;

step five: taking a finished product: after the fourth fixing and welding operation is completed, the clamping frame is manually opened, then the spring hand lever is manually pulled to drive the mounting plate to be away, and then the formed square reinforcement cage falls onto the mounting frame, so that the purpose of taking out finished products is achieved;

the square steel reinforcement cage forming equipment used in the steps comprises an installation frame, a clamping external member and an extrusion external member, wherein the clamping external member and the extrusion external member are sequentially arranged in the installation frame from bottom to top.

The clamping kit comprises supporting legs, a mounting plate, a spring hand pull rod, a bearing rotary column, a material clamping frame, a rotary grooved wheel, a driving rod, a first motor, a bearing seat and a steel wire frame, wherein the supporting legs are arranged on the lower end surface of the mounting frame in a welding mode, the mounting plate is symmetrically arranged on the mounting frame in a sliding connection mode, the spring hand pull rod is arranged on the outer side of the mounting plate, the bearing rotary column is arranged on the mounting plate in a bearing connection mode, the material clamping frame is fixedly arranged on the bearing rotary column at the right end, the set of Austen grooved wheels are connected on the bearing rotary column at the right end, the driving rod which is matched with the rotary grooved wheel is arranged on the outer side, the driving rod is fixedly arranged on an output shaft of the first motor, the first motor is arranged on the current bearing seat, the, during operation, the manual work is placed the billet and is pressed from both sides the work of work or material rest on pressing from both sides the work of work or material rest, presss from both sides the billet, and the steel wire that will pass the steel wire frame of manual work simultaneously is fixed on the billet to the welding gets up, and later a motor work drives the actuating lever and rotates, thereby drives and rotates the sheave and carry out intermittent type and rotate, thereby reaches the fashioned purpose of material loading.

The extrusion external member comprises a second hydraulic cylinder, a pressing block, a connecting rod, a wheel carrier, an extrusion wheel, a third hydraulic cylinder and a cutting knife, the second hydraulic cylinder is fixedly arranged on the outer wall of the mounting frame, the pressing block is arranged on the output shaft of the second hydraulic cylinder, the connecting rod is symmetrically arranged on the outer side of the pressing block, the connecting rod is arranged on the mounting frame in a welding mode, the wheel carrier is arranged on the connecting rod, the extrusion wheel is arranged on the wheel carrier in a rotating connection mode, the third hydraulic cylinder is arranged on the outer wall of the mounting frame, the cutting knife is arranged on the output shaft of the third hydraulic cylinder, when the material clamping frame is driven by a motor to rotate intermittently, the second hydraulic cylinder works to drive the pressing block to extrude the corners of the steel wires, and meanwhile, the extrusion wheel on the connecting rod exerts an extrusion force on the steel wires, the leveling of the steel wire outside the steel bar is guaranteed, and then when a motor drives the material clamping frame to rotate for a circle, the third hydraulic cylinder works to drive the cutting-off cutter to cut off the steel wire, so that the purpose of forming the square steel reinforcement cage is achieved.

According to a preferred technical scheme, the material clamping frame is provided with a manual rotating disc in a rotating connection mode, graduated scales are uniformly arranged on the outer side of the manual rotating disc, the manual rotating disc is fixedly connected with a rotating disc, the rotating disc is located inside the material clamping frame, adjusting lugs are uniformly arranged on the rotating disc in a welding mode, the outer side of each adjusting lug abuts against a material clamping splint, and the material clamping splints are arranged on the material clamping frame in a sliding connection mode.

As a preferred technical scheme of the invention, the material clamping splint is provided with a material placing through hole a, the material placing through hole a is symmetrically provided with a material blocking block in a rotating connection mode, a spring is connected between the material blocking block and the material clamping splint, the outer side of the material blocking block is provided with a hand lever, the hand lever is fixedly provided with a transmission pull rod, the transmission pull rod is connected with a material clamping arc plate, the material clamping arc plate is arranged inside the material placing through hole a spring connection mode, the outer sides of the hand lever and the transmission pull rod are uniformly provided with friction rollers, and the friction rollers are arranged on the inner wall of the material clamping splint in a bearing connection mode.

According to a preferable technical scheme of the invention, the steel wire frame is uniformly provided with steel wire through holes B, and the outer sides of the steel wire through holes B are uniformly provided with heating columns.

As a preferred technical scheme, the pressing block is provided with an extrusion column in a sliding connection mode, the extrusion column is provided with a trapezoidal push block, the trapezoidal push block is symmetrically abutted against extrusion rods, the extrusion rods are fixedly arranged on a rotating block, the rotating block is arranged on the inner wall of the pressing block in a rotating connection mode, the inner side of the rotating block is uniformly abutted against a material pushing rod, the material pushing rod is uniformly arranged on the pressing block in a spring connection mode, the material pushing rod is abutted against an inner pressing plate, and the inner pressing plate is arranged on the inner wall of the pressing block in a spring connection mode.

As a preferred technical scheme of the invention, the rotary wheel frame is of a U-shaped structure, a sliding rod is arranged on the rotary wheel frame in a sliding connection mode, a pushing spring is abutted against the sliding rod, and an extrusion wheel is arranged on the sliding rod in a rotating connection mode.

Compared with the prior art, the invention has the following advantages:

1. the invention can solve the following problems of the prior reinforcement cage in production and preparation: a: when the conventional reinforcement cage is produced and prepared, in order to increase the stability of the reinforcement cage, surrounding ribs are often uniformly arranged on the periphery of the reinforcement cage by manpower, so that the reinforcement cage is often deformed, the quality of the reinforcement cage is easy to cause problems, manual restitution is needed, and the workload of workers is greatly increased; b: when the existing reinforcement cage is manufactured into a square shape, gaps often appear at the corners of the reinforcement cage, so that the stability of the reinforcement cage is greatly reduced, and certain potential safety hazards exist.

2. According to the steel wire frame, the steel wire is heated under the action of the heating columns inside the steel wire through holes B on the steel wire frame when the steel wire passes through the steel wire frame, so that the steel wire is softened, and therefore when the periphery of a steel bar is surrounded, the condition that the steel bar cage is deformed due to too high hardness of the steel wire is greatly avoided, the workload of staff is further reduced, and the quality of the steel bar cage is improved.

3. According to the invention, the extrusion external member is designed, when the first motor drives the material clamping frame to intermittently rotate, the second hydraulic cylinder works to drive the pressing block to extrude the corners of the steel wires, so that the extrusion block is extruded by the steel wires to drive the trapezoidal push block to move upwards to push the extrusion rod, thereby driving the rotating block to rotate, further driving the material pushing rod to push the inner pressing plate, thereby extruding the corners of the steel wires, thereby achieving the purpose of pressing the corners of the steel wire strips, enabling the steel wires to be tightly attached to the surfaces of the steel bars, thereby achieving the purpose of forming the steel bar cage, greatly avoiding the occurrence of gaps when the corners of the steel bar holes break, influencing the stability of the steel bar cage, greatly ensuring the quality of the steel bar cage, and avoiding the occurrence of potential safety hazards.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a side view of a schematic of the structure of the present invention;

FIG. 4 is an enlarged schematic view of region A of FIG. 3 of the present invention;

FIG. 5 is a schematic cross-sectional view of the area B of FIG. 3 in accordance with the present invention;

FIG. 6 is a schematic structural view of the material clamping frame of the present invention;

fig. 7 is an enlarged schematic view of region C of fig. 6 of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 7, a method for manufacturing a beam column of a steel-concrete building structure mainly comprises the following steps:

the method comprises the following steps: equipment inspection: before the square reinforcement cage forming equipment is started to produce the square reinforcement cage, the operation of the equipment is checked;

step two: manual feeding: the steel bars of the artificial box are placed on the material clamping frame 25, the material clamping frame 25 works to clamp the steel bars, then the steel bars are manually placed on the steel wire frame 29, and one ends of the steel bars and the steel bars are welded together, so that the artificial feeding operation is completed;

step three: forming a reinforcement cage: after the manual feeding operation is completed, the first motor works to drive the rotating grooved pulley 26 to rotate intermittently through the driving rod 27, so that the material clamping frame 25 is driven to rotate intermittently through the action of the bearing rotating column 24, the extrusion wheel 34 extrudes surface reinforcing steel bars under the action of the connecting rod 32 in the rotating process, the reinforcing steel bars are always attached to a steel bar, and when the material clamping frame 25 stops rotating, the second hydraulic cylinder works to drive the pressing frame to extrude the turning positions of the reinforcing steel bars, so that the attaching degree of the bending positions of the reinforcing steel bars is increased, and the reinforcing cage forming operation is completed;

step four: fixing and welding: after the forming operation of the reinforcement cage in the third step is completed, the third hydraulic cylinder works to drive the cutting knife 35 to cut off the reinforcement, and then the tail end and the head of the reinforcement are welded together manually, so that the purpose of fixed welding is achieved;

step five: taking a finished product: after the fourth fixing and welding operation is completed, the clamping frame 25 is manually opened, then the spring hand lever 23 is manually pulled to drive the mounting plate 22 to be away from the spring hand lever, and then the formed square reinforcement cage falls onto the mounting frame 1, so that the purpose of taking out finished products is achieved;

the square steel reinforcement cage forming equipment used in the steps comprises an installation frame 1, a clamping sleeve 2 and an extrusion sleeve 3, wherein the clamping sleeve 2 and the extrusion sleeve 3 are sequentially arranged in the installation frame 1 from bottom to top.

The clamping set 2 comprises supporting legs 21, a mounting plate 22, a spring hand lever 23, a bearing rotary column 24, a material clamping frame 25, a rotary grooved pulley 26, a driving rod 27, a first motor, a bearing seat 28 and a steel wire frame 29, wherein the supporting legs 21 are arranged on the lower end surface of the mounting frame 1 in a welding mode, the mounting plate 22 is symmetrically arranged on the mounting frame 1 in a sliding connection mode, the spring hand lever 23 is arranged on the outer side of the mounting plate 22, the bearing rotary column 24 is arranged on the mounting plate 22 in a bearing connection mode, the material clamping frame 25 is fixedly arranged on the bearing rotary column 24, the group of Otto grooved pulleys are connected on the bearing rotary column 24 at the right end, the driving rod 27 which is matched with each other is arranged on the outer side of the rotary grooved pulley 26, the driving rod 27 is fixedly arranged on an output shaft of the first motor, the first motor is arranged, the mounting panel 22 outside is provided with steel wire frame 29, steel wire frame 29 fixed mounting is on mounting bracket 1, concrete during operation, the manual work is placed the billet on pressing from both sides the work of work frame 25, press from both sides the work of work frame 25, clip the billet, the artifical steel wire that will pass steel wire frame 29 simultaneously is fixed on the billet, and weld, later a motor work, drive actuating lever 27 rotates, thereby drive and rotate sheave 26 and carry out 90 intermittent type rotations, thereby drive and press from both sides work frame 25 and rotate, cooperate extrusion external member 3 effect simultaneously, make the steel wire after steel wire frame 29 handles take place deformation, thereby reach the fashioned mesh of steel reinforcement cage.

Press from both sides on the work or material rest 25 and install manual carousel 251 through the mode of rotating the connection, the scale evenly is provided with in the manual carousel 251 outside, fixedly connected with rolling disc 252 on the manual carousel 251, rolling disc 252 is located and presss from both sides the work or material rest 25 inside, evenly install through the welded mode on the rolling disc 252 and adjust lug 253, it supports to lean on there is double-layered material splint 254 to adjust the lug 253 outside, double-layered material splint 254 is installed on pressing from both sides the work or material rest 25 through sliding connection's mode, concrete during operation, manual rotation manual carousel 251 drives rolling disc 252 and rotates, thereby through adjusting lug 253 effect, it slides on pressing from both sides the work or material rest 25 to drive double-layered material splint 254, thereby reach the purpose of adjusting the steel.

The material clamping splint 254 is provided with a material placing through hole A, the material placing through hole A is symmetrically provided with a material blocking block 2541 in a rotating connection mode, a spring is connected between the material blocking block 2541 and the material clamping splint 254, the outer side of the material blocking block 2541 is provided with a hand lever 2542, the hand lever 2542 is fixedly provided with a transmission pull rod 2543, the transmission pull rod 2543 is connected with a material clamping arc plate 2544, the material clamping arc plate 2544 is arranged inside the material placing through hole A in a spring connection mode, the outer sides of the hand lever 2542 and the transmission pull rod 2543 are uniformly provided with friction rollers 2545, the friction rollers 2545 are arranged on the inner wall of the material clamping splint 254 in a bearing connection mode, during specific work, reinforcing steel bars are manually placed in the material placing through hole A on the material clamping shift 254, the outlet of the reinforcing steel bar 2541 is blocked due to the spring action, meanwhile, the material clamping arc plate 2544 acts on clamping the reinforcing steel bars, so as to achieve the purpose of fixing the reinforcing steel, artifical pulling hand lever 2542 drives transmission pull rod 2543 and presss from both sides material arc plate 2544 to the lateral movement for pressing from both sides material arc plate 2544 and loosening the reinforcing bar, drive simultaneously and keep off material piece 2541 and open the export, thereby make things convenient for the manual work to take out fashioned steel reinforcement cage, the effect of friction gyro wheel 2545 simultaneously makes the manual work delay when opening and presss from both sides material splint 254 and resets, thereby make to get a piece more convenient.

Evenly be provided with steel wire via hole B on the steel wire frame 29, the steel wire via hole B outside evenly is provided with the heating post, and concrete during operation, when the steel wire passes through steel wire frame 29, the inside heating post effect of steel wire via hole B on the steel wire frame carries out heat treatment to the steel wire for the steel wire softens, thereby makes the steel wire soft, makes things convenient for the shaping.

The extrusion suite 3 comprises a second hydraulic cylinder, a pressing block 31, a connecting rod 32, a wheel carrier 33, an extrusion wheel 34, a third hydraulic cylinder and a cutting knife 35, the second hydraulic cylinder is fixedly installed on the outer wall of the installation frame 1, the pressing block 31 is installed on an output shaft of the second hydraulic cylinder, the connecting rod 32 is symmetrically arranged on the outer side of the pressing block 31, the connecting rod 32 is installed on the installation frame 1 in a welding mode, the wheel carrier 33 is installed on the connecting rod 32, the extrusion wheel 34 is installed on the wheel carrier 33 in a rotating connection mode, the third hydraulic cylinder is arranged on the outer side of the connecting rod 32 and installed on the outer wall of the installation frame 1, the cutting knife 35 is installed on an output shaft of the third hydraulic cylinder, when the first motor drives the material clamping frame 25 to rotate intermittently, the second hydraulic cylinder works to drive the pressing block 31 to extrude the corners of steel wires, and meanwhile, the extrusion wheel 34 on the, make the steel wire take place deformation, guaranteed leveling of billet outside steel wire, later when a motor drive presss from both sides work or material rest 25 and rotates the round, No. three pneumatic cylinders work, drive cutting off tool 35 and cut off the steel wire to reach the fashioned mesh of square steel reinforcement cage.

The extrusion column 311 is installed on the pressing block 31 in a sliding connection manner, the trapezoidal push block 312 is installed on the extrusion column 311, the extrusion rods 313 are symmetrically abutted against the trapezoidal push block 312, the extrusion rods 313 are fixedly installed on the rotating block 314, the rotating block 314 is installed on the inner wall of the pressing block 31 in a rotating connection manner, the inner side of the rotating block 314 is uniformly abutted against the push rods 315, the push rods 315 are uniformly installed on the pressing block 31 in a spring connection manner, the push rods 315 are abutted against the inner pressing plate 316, the inner pressing plate 316 is installed on the inner wall of the pressing block 31 in a spring connection manner, during specific work, the extrusion block 311 is subjected to the extrusion action of the steel wire, so as to drive the trapezoidal push block 312 to move upwards, thereby pushing the extrusion rods 313, thereby driving the rotating block 314 to rotate, further driving the push rods 315 to push the inner pressing plate 316, thereby performing extrusion treatment on the corners of the steel wire, thereby reach the mesh of sticising steel wire strip corner to make the steel wire closely laminate on the reinforcing bar surface, thereby reach the fashioned mesh of steel reinforcement cage.

The steel bar cage is characterized in that the wheel carrier 33 is of a U-shaped structure, a sliding rod 331 is installed on the wheel carrier 33 in a sliding connection mode, a pushing spring 332 abuts against the sliding rod 331, and an extrusion wheel 34 is installed on the sliding rod 331 in a rotating connection mode.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The manufacturing method of the beam column of the steel-concrete building structure uses a square steel reinforcement cage forming device, the square steel reinforcement cage forming device comprises a mounting frame (1), a clamping sleeve (2) and an extrusion sleeve (3), and the manufacturing method is characterized in that: the concrete method of the square reinforcement cage forming equipment during production of the square reinforcement cage is as follows:

the method comprises the following steps: equipment inspection: before the square reinforcement cage forming equipment is started to produce the square reinforcement cage, the operation of the equipment is checked;

step two: manual feeding: the steel bars of the artificial box are placed on the material clamping frame (25), the material clamping frame (25) works to clamp the steel bars, then the steel bars are manually placed on the steel wire frame (29), and one ends of the steel bars and the steel bars are welded together, so that the manual feeding operation is completed;

step three: forming a reinforcement cage: after the manual feeding operation is completed, the first motor works to drive the rotating grooved pulley (26) to rotate intermittently through the driving rod (27), so that the material clamping frame (25) is driven to rotate intermittently through the action of the bearing rotating column (24), the extrusion wheel (34) extrudes surface reinforcing steel bars under the action of the connecting rod (32) in the rotating process, the reinforcing steel bars are always attached to steel bars, and when the material clamping frame (25) stops rotating, the second hydraulic cylinder works to drive the pressing frame to extrude the turning positions of the reinforcing steel bars, so that the attaching degree of the bending to the steel bars is increased, and the forming operation of a reinforcing cage is completed;

step four: fixing and welding: after the forming operation of the reinforcement cage in the step three is completed, the third hydraulic cylinder works to drive a cutting knife (35) to cut off the reinforcement, and then the tail end and the head of the reinforcement are welded together manually, so that the purpose of fixed welding is achieved;

step five: taking a finished product: after the fourth step of fixed welding operation is completed, the clamping frame (25) is manually opened, then the spring hand lever (23) is manually pulled to drive the mounting plate (22) to be away, and then the formed square reinforcement cage falls onto the mounting frame (1), so that the purpose of finished product taking is achieved;

a clamping sleeve (2) and an extrusion sleeve (3) are sequentially arranged in the mounting frame (1) from bottom to top;

the clamping kit (2) comprises supporting legs (21), a mounting plate (22), a spring hand lever (23), a bearing rotary column (24), a clamping frame (25), a rotary grooved wheel (26), a driving rod (27), a first motor, a bearing seat (28) and a steel wire frame (29), wherein the supporting legs (21) are arranged on the lower end face of the mounting frame (1) in a welding mode, the mounting plate (22) is symmetrically arranged on the mounting frame (1) in a sliding connection mode, the spring hand lever (23) is arranged on the outer side of the mounting plate (22), the bearing rotary column (24) is arranged on the mounting plate (22) in a bearing connection mode, the clamping frame (25) is fixedly arranged on the bearing rotary column (24) at the right end, the rotary grooved wheel (26) is connected on the bearing rotary column (24) at the right end, the driving rod (27) which is matched with each other is arranged on the outer side of the rotary grooved, the first motor is installed on a current bearing seat (28), the bearing seat (28) is installed on the outer wall of the installation plate (22) in a welding mode, a steel wire frame (29) is arranged on the outer side of the installation plate (22), and the steel wire frame (29) is fixedly installed on the installation frame (1);

extrusion external member (3) are including No. two pneumatic cylinders, sticiss piece (31), connecting rod (32), runner frame (33), extrusion wheel (34), No. three pneumatic cylinders and cutting off cutter (35), No. two pneumatic cylinder fixed mounting are on mounting bracket (1) outer wall, install on the output shaft of No. two pneumatic cylinders and sticis piece (31), it is provided with connecting rod (32) to sticis piece (31) outside symmetry, connecting rod (32) are installed on mounting bracket (1) through the welded mode, install runner frame (33) on connecting rod (32), extrusion wheel (34) are installed through the mode of rotating the connection on runner frame (33), the connecting rod (32) outside is provided with No. three pneumatic cylinders, No. three pneumatic cylinders are installed on mounting bracket (1) outer wall, install cutting off cutter (35) on the output shaft of No. three pneumatic cylinders.

2. The method for manufacturing a beam column of a steel-concrete building structure according to claim 1, wherein: press from both sides manual carousel (251) and install through the mode of rotating the connection on work or material rest (25), the scale evenly is provided with in the manual carousel (251) outside, fixedly connected with rolling disc (252) on manual carousel (251), inside rolling disc (252) are located and press from both sides work or material rest (25), evenly install regulation lug (253) through the welded mode on rolling disc (252), regulation lug (253) outside is supported and is leaned on there is material clamping splint (254), material clamping splint (254) are installed on pressing from both sides work or material rest (25) through sliding connection's mode.

3. The method for manufacturing a beam column of a steel-concrete building structure according to claim 2, wherein: it puts material via hole A to have seted up on clamp material splint (254), put and install shelves material piece (2541) through the mode symmetry that rotates the connection on the material via hole A, be connected with the spring between shelves material piece (2541) and clamp material splint (254), hand lever (2542) are installed in shelves material piece (2541) outside, fixed mounting has transmission pull rod (2543) on hand lever (2542), be connected with on transmission pull rod (2543) and press from both sides material arc board (2544), it installs inside putting material via hole A to press from both sides material arc board (2544) through spring coupling's mode, evenly be provided with friction roller (2545) in hand lever (2542) and transmission pull rod (2543) outside, friction roller (2545) are installed on clamp material splint (254) inner wall through the mode that the bearing is connected.

4. The method for manufacturing a beam column of a steel-concrete building structure according to claim 1, wherein: and steel wire through holes B are uniformly formed in the steel wire frame (29), and heating columns are uniformly arranged outside the steel wire through holes B.

5. The method for manufacturing a beam column of a steel-concrete building structure according to claim 1, wherein: install extrusion post (311) through sliding connection's mode on briquetting (31), install trapezoidal ejector pad (312) on extrusion post (311), the symmetry is leaned on to have extrusion pole (313) on trapezoidal ejector pad (312), extrusion pole (313) fixed mounting is on turning block (314), turning block (314) are installed on briquetting (31) inner wall through the mode of rotating the connection, turning block (314) inboard evenly supports to have ejector pad pole (315), ejector pad pole (315) are evenly installed on briquetting (31) through spring coupling's mode, it has interior clamp plate (316) to support to lean on ejector pad pole (315), interior clamp plate (316) are installed on briquetting (31) inner wall through spring coupling's mode.

6. The method for manufacturing a beam column of a steel-concrete building structure according to claim 1, wherein: the rotary wheel frame (33) is of a U-shaped structure, a sliding rod (331) is installed on the rotary wheel frame (33) in a sliding connection mode, a pushing spring (332) abuts against the sliding rod (331), and an extrusion wheel (34) is installed on the sliding rod (331) in a rotating connection mode.

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