CN114734167A - Welding device for steel reinforcement framework and construction method thereof - Google Patents

Abstract

The invention provides a welding device of a steel reinforcement framework, which comprises: two sliding rails which are oppositely arranged; the supporting frames are arranged at intervals along the length direction of the sliding rails and positioned between the two sliding rails, and the height of each supporting frame is adjustable; the sliding plate is arranged on the sliding rail in a sliding manner and is positioned between the main ribs and the supporting frame; the inductor is in driving connection with the support frame; the hanging rods are arranged on the top surface of the sliding plate at intervals and are parallel to the main ribs; the shifting piece is connected with the sliding plate in a position-adjustable manner and used for clamping the stirrup; set up in the top surface of slide and supply the welding piece of welding main reinforcement and stirrup. The welding device can realize an operation mode of replacing manpower with machinery, liberates manpower, has high mechanical operation accuracy and improves the welding efficiency of the steel reinforcement framework.

Description

Welding device for steel reinforcement framework and construction method thereof

Technical Field

The invention relates to the technical field of building construction, in particular to a welding device of a steel reinforcement framework and a construction method thereof.

Background

The small box girder for the highway is one of middle girders in bridge engineering, is hollow inside, is provided with flanges at two sides of the upper part, is similar to a box, and is named. And binding a reinforcement cage before pouring concrete on the small box girder.

The traditional box girder top plate stirrup is arranged and installed manually. Because the hooping quantity of the box girder top plate is large, the manual binding quality is not high, and the box girder top plate is not easy to standardize; and the stirrup binding of the traditional process needs to be respectively bound by upper and lower layers, so that the working hours are wasted, the labor intensity is high, the labor efficiency is not high, and the occupation of the field traffic is easily caused.

Disclosure of Invention

In view of the above situation, the invention provides a welding device for a steel reinforcement framework, which solves the problems of difficult stirrup binding and low efficiency in the traditional construction, can realize an operation mode of replacing manpower by machinery, liberates manpower, has high mechanical operation accuracy, and improves the welding efficiency of the steel reinforcement framework.

In order to achieve the purpose, the invention adopts the technical scheme that:

a welding set of framework of steel reinforcement for fixed connection framework of steel reinforcement's main muscle and stirrup, welding set includes:

two sliding rails which are oppositely arranged;

the supporting frames are arranged at intervals along the length direction of the sliding rails and positioned between the two sliding rails, the height of each supporting frame is adjustable, and the main ribs are arranged at the tops of the supporting frames;

the sliding plate is arranged on the sliding rail in a sliding manner and is positioned below the main ribs;

the sensor is in driving connection with the support frame, and senses the sliding plate through the sensor to drive the support frame to lower, so that the sliding plate passes through the top surface of the support frame;

the hanging rods are arranged on the top surface of the sliding plate at intervals and are parallel to the main reinforcements, the stirrups are hung on the hanging rods, and the main reinforcements penetrate through the stirrups;

the poking piece is connected with the sliding plate in an adjustable position and used for clamping the stirrup, the stirrup is clamped through the poking piece, and the poking piece is further moved along the length direction of the main reinforcement to drive the stirrup to move to a position to be welded;

set up in the top surface of slide and supply the welding piece of welding main reinforcement and stirrup.

The invention further improves the welding device of the steel reinforcement framework, and the support frame comprises:

the U-shaped plate is vertically arranged between the two slide rails and is U-shaped;

the guide grooves are formed in the two sides of the U-shaped plate, and the two guide grooves are opposite in position;

the clamping plate is in an inverted U shape, two end parts of the clamping plate are respectively arranged on the clamping plate of the guide groove in a sliding mode, and the main rib is arranged on the top surface of the clamping plate; and

fixed connection is between U template and cardboard and telescopic adjustment's telescopic link, and the inductor is connected with the telescopic link drive, senses the slide through the inductor to drive telescopic link shrink, slide down along the guide way in order to drive the cardboard, thereby make the slide pass through from the top surface of support frame.

The welding device for the steel reinforcement framework is further improved in that the welding device further comprises a plurality of guide grooves which are arranged on the top surface of the clamping plate at intervals, and the main reinforcements penetrate through the guide grooves.

The welding device for the steel reinforcement framework is further improved in that the welding device further comprises a portal frame which is arranged on the two sliding rails in a sliding mode and is in an inverted U shape, the position of a welding piece is connected to the portal frame in an adjustable mode, the portal frame is arranged across the main ribs, and the sliding plates are fixedly connected to the portal frame.

The welding device for the steel reinforcement framework is further improved in that the portal frame comprises two opposite vertical parts which are arranged on the slide rail in a sliding mode and a horizontal part fixedly connected to the top ends of the vertical parts, the welding part is connected to the horizontal part in an adjustable mode, and the slide plate is fixedly connected to the two vertical parts.

The welding device for the steel reinforcement framework is further improved in that the welding device further comprises a connecting rod which is fixedly connected between the two vertical parts and is parallel to the horizontal part, and a plurality of vertical rods which are fixedly connected between the connecting rod and the sliding plate and are positioned at two sides of the main ribs.

The welding device for the steel bar framework is further improved in that the welding device further comprises a vertical plate vertically arranged on the top surface of the sliding plate, one end of the hanging rod is fixedly connected to the vertical plate, and the other end of the hanging rod extends to the end part, far away from the vertical plate, of the sliding plate.

The welding device for the steel reinforcement framework is further improved in that the welding device further comprises a rail which is fixed on the top surface of the sliding plate and extends along the length direction of the main reinforcement, the poking piece is arranged on the rail in a sliding mode, and the poking piece slides along the rail to drive the stirrup to move.

The welding device of the steel reinforcement framework is further improved in that the stirring piece comprises a mounting plate arranged on the track in a sliding manner, sliding chutes arranged on two side surfaces of the mounting plate and two clamping plates respectively arranged on the sliding chutes in a sliding manner;

through removing two splint along the spout to make two splint remove downwards, thereby make two splint be located the both sides of stirrup respectively, so that the stirrup card is located between two splint.

A construction method of a welding device of a steel reinforcement framework comprises the following steps:

s11, providing a plurality of stirrups, hanging the stirrups on the hanging rod, providing a plurality of main reinforcements, and penetrating the main reinforcements through the stirrups and placing the main reinforcements on the top surface of the support frame;

s12, the stirrups are clamped by the aid of the stirring pieces, the stirring pieces are moved and adjusted along the length direction of the main reinforcements, so that the stirring pieces drive the stirrups to move to positions to be welded, and the main reinforcements and the stirrups are welded by the aid of welding pieces, so that the stirrups are fixed on the main reinforcements;

s13, the sensor senses the sliding plate to drive the supporting frame to be lowered, so that the sliding plate passes through the top surface of the supporting frame and moves to the next welding area;

and repeating the steps from S12 to S13 until the reinforcement cage is formed.

The welding device of the steel reinforcement framework of the invention jacks up the main reinforcements through the plurality of supporting frames, and the guide grooves are arranged at the top parts of the supporting frames to plan the space between the plurality of main reinforcements, thereby avoiding the deviation of the vertical reinforcements when the framework is welded, improving the forming quality of the steel reinforcement of the top plate of the girder, conveniently arranging the hanging rods for hanging the stirrups through the slide plates connected on the portal frame, avoiding uninterrupted feeding of constructors during construction, improving the construction efficiency, adjusting the connecting positions between the stirrups and the main reinforcements by arranging the stirring parts for stirring the stirrups on the top surfaces of the slide plates, ensuring the arrangement space between the stirrups, improving the forming quality of the steel reinforcement framework, realizing the use efficiency of the steel reinforcement framework, liberating a large amount of labor force through a full-automatic construction mode, saving the construction period, and the full-automatic construction mode can also improve the connection quality of the joint of the main reinforcement and the stirrup and improve the stability of the steel reinforcement framework.

Drawings

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

Fig. 1 is a perspective view of a welding apparatus for a reinforcing cage according to the present invention.

Fig. 2 is a perspective view of a support frame in the welding device of the steel reinforcement cage of the present invention.

Fig. 3 is a perspective view of a slide plate and a toggle member in the welding apparatus for a steel reinforcement cage according to the present invention.

Fig. 4 is a perspective view of a slide plate in the welding apparatus of the framework of steel reinforcement of the present invention.

Fig. 5 is a perspective view of a gantry in the welding apparatus for a steel-reinforced frame of the present invention.

Fig. 6 is a perspective view of a toggle member in the welding device for the steel reinforcement cage of the present invention.

The correspondence of reference numerals to components is as follows: mounting bracket 1, slide rail 11, support frame 2, U template 21, cardboard 22, guide way 221, telescopic link 23, slide 3, connecting rod 31, peg 32, riser 33, bottom plate 34, portal frame 41, remove the cover 42, welding 43, stir 5, track 51, mounting panel 52, spout 531, splint 53, main muscle 61, stirrup 62.

Detailed Description

To facilitate an understanding of the present invention, reference is made to the following description taken in conjunction with the accompanying drawings and examples.

Referring to fig. 1 to 3, the present invention provides a welding device for a steel reinforcement framework, for fixedly connecting a main reinforcement 61 and a stirrup 62 of the steel reinforcement framework, the welding device comprising:

two slide rails 11 arranged oppositely;

the supporting frames 2 are arranged at intervals along the length direction of the sliding rails and positioned between the two sliding rails 11, the height of each supporting frame 2 is adjustable, and the main ribs 61 are arranged at the tops of the supporting frames 2;

the sliding plate 3 is arranged on the sliding rail 11 in a sliding manner and is positioned below the main ribs 61;

the sensor is in driving connection with the support frame 2 and senses the sliding plate 3 through the sensor to drive the support frame 2 to lower, so that the sliding plate 3 passes through the top surface of the support frame 2;

the hanging rods 32 are arranged on the top surface of the sliding plate 3 at intervals and are parallel to the main ribs 61, the stirrups 62 are hung on the hanging rods 32, and the main ribs 61 penetrate through the stirrups 62;

the poking piece 5 is connected to the sliding plate 3 in a position-adjustable manner and used for clamping the stirrup 62, the stirrup 62 is clamped through the poking piece 5, and the poking piece 5 is further moved along the length direction of the main rib 61 so as to drive the stirrup 62 to move to a position to be welded;

and a welding part 43 which is arranged on the top surface of the sliding plate 3 and is used for welding the main rib 61 and the stirrup 62.

As shown in fig. 2, a preferred embodiment of the welding device for a steel bar framework of the present invention is that the supporting frame 2 includes: a U-shaped plate 21 vertically arranged between the two slide rails 11;

the guide grooves 221 are formed in two sides of the U-shaped plate 21, and the two guide grooves 221 are opposite in position;

the clamping plate 22 is in an inverted U shape, two end parts of the clamping plate 22 are respectively arranged on the clamping plate 22 of the guide groove 221 in a sliding mode, and the main rib 61 is arranged on the top surface of the clamping plate 22; and

fixed connection is between U template 21 and cardboard 22 and telescopic adjustment's telescopic link 23, and the inductor is connected with telescopic link 23 drive, senses slide 3 through the inductor to drive telescopic link 23 shrink, slide down along guide way 221 in order to drive cardboard 33, thereby make slide 3 pass through from the top surface of support frame 2.

Preferably, the sensor may be an infrared receiver, an infrared emitter is disposed on the bottom surface of the sliding plate 3, the infrared receiver can receive an infrared signal value within a set intensity range, when the sensor receives the infrared signal within the set intensity range, the telescopic rod 23 is driven to contract, and when the infrared signal intensity received by the sensor is greater than the set intensity range or less than the set intensity range, the telescopic rod 23 is driven to extend by the sensor; the sensor may also be a radio signal receiver, a radio transmitter is disposed on the bottom surface of the sliding plate 3, the radio signal receiver can receive a radio signal value within a set intensity range, when the sensor receives the radio signal within the set intensity range, the telescopic rod 23 is driven to contract, and when the intensity of the radio signal received by the sensor is greater than the set intensity range or less than the set intensity range, the telescopic rod 23 is driven to extend by the sensor.

Specifically, as shown in fig. 2, the clamping plate further includes a plurality of guide grooves 221 spaced apart from each other on the top surface of the clamping plate 22, and the main ribs 61 are inserted into the guide grooves 221.

Specifically, as shown in fig. 1, this welding set is fixed in on the operation face of level form, is provided with on the operation face with mounting bracket 1, and mounting bracket 1 is fixed in between two relative pole settings including being fixed in the operation face and being the rectangle frame of rectangle and the interval a plurality of pole settings that are fixed in the top of rectangle frame, support frame 2, and slide rail 11 is fixed in the top of a plurality of pole settings.

Preferably, the height of U-shaped plate 21 is greater than the height of pole setting, and the bottom and the rectangle frame of U-shaped plate 21 pass through mortise and tenon structure fixed connection.

Further, as shown in fig. 1, the device further includes an inverted U-shaped gantry 41 slidably disposed on the two slide rails 11, the position of the welding part 43 is adjustably connected to the gantry 41, the gantry 1 spans over a plurality of main ribs 61, and the sliding plate 3 is fixedly connected to the gantry 41.

Specifically, as shown in fig. 1, the gantry 41 includes two opposite vertical portions slidably disposed on the slide rail 11 and a horizontal portion fixedly connected to the top ends of the vertical portions, the welding member 43 is adjustably connected to the horizontal portion, and the slide plate 3 is fixedly connected to the two vertical portions.

Specifically, as shown in fig. 1, the sliding device further includes a connecting rod 31 fixedly connected between the two vertical portions and parallel to the horizontal portion, and a plurality of vertical rods fixedly connected between the connecting rod 31 and the sliding plate 3 and located at two sides of the plurality of main ribs 61, and the sliding device slides along the sliding rail 11 through the gantry 41 to drive the sliding plate 3 to slide.

Preferably, a moving sleeve 42 is slidably connected to the horizontal portion of the gantry 41, and the welding member 43 is fixedly connected to the moving sleeve 42, and the moving sleeve 42 moves along the gantry 41 to drive the welding member 43 to move.

Further, as shown in fig. 3 and 4, the device further includes a vertical plate 33 vertically disposed on the top surface of the sliding plate 3, one end of the hanging rod 32 is fixedly connected to the vertical plate 33, and the other end extends to the end of the sliding plate far from the vertical plate 33.

Specifically, as shown in fig. 3, the side portion of the slide plate 3 extends outward to form a bottom plate 34, thereby facilitating the setting of the toggle 5.

Further, as shown in fig. 3 and 6, the slide plate further includes a rail 51 fixed on the top surface of the slide plate 3 and extending along the length direction of the main rib 61, the toggle member 5 is slidably disposed on the rail 51, and the toggle member 5 slides along the rail 51, so that the toggle member 5 drives the stirrup 62 to move.

Specifically, the toggle member 5 includes an installation plate 52 slidably disposed on the track 51, sliding grooves 531 formed on two side surfaces of the installation plate 52, and two clamping plates 53 slidably disposed on the sliding grooves 531 and used for clamping the stirrups 62;

by moving the two clamping plates 53 along the sliding grooves 531, the two clamping plates 53 move downwards, so that the two clamping plates 53 are respectively located on two sides of the stirrup 62, the stirrup 62 is clamped between the two clamping plates 53, and the mounting plate 52 is moved along the rail 51 to drive the stirrup 62 to be located at the position to be welded.

The welding device of the steel reinforcement framework of the invention jacks up the main reinforcements 61 through the plurality of support frames 2, and arranges the guide groove 221 on the top of the support frame 2 to plan the space between the plurality of main reinforcements 61, thereby avoiding the deviation of the vertical reinforcements when the framework is welded, improving the forming quality of the steel reinforcement framework, conveniently arranging the hanging rod 32 for hanging the stirrups through the slide plate 3 connected on the portal frame 21, avoiding the uninterrupted feeding of constructors during construction, improving the construction efficiency, arranging the toggle piece 5 for toggling the stirrups on the top surface of the slide plate 3, thereby being capable of adjusting the connecting position between the stirrups and the main reinforcements, ensuring the arrangement space between the stirrups, improving the forming quality of the steel reinforcement framework, realizing the use efficiency of the steel reinforcement framework, liberating a large amount of labor force through a full-automatic construction mode, saving the construction period, and the full-automatic construction mode can also improve the connection quality of the joint of the main reinforcement and the stirrup and improve the stability of the steel reinforcement framework.

The concrete embodiment of the welding device of the steel reinforcement framework of the invention is that S1, a plurality of stirrups 62 are hung on the hanging rod 32, and the main reinforcement 61 is arranged on the stirrups 62 in a penetrating way and is arranged on the guide groove 221 in a sliding way;

s2, sliding the mounting plate 52 along the rail 51 so that the clamping plates 53 correspond to the stirrups 62, and further moving the two clamping plates 53 along the sliding groove 531 so that the two clamping plates 53 move downward so that the two clamping plates 53 are respectively located at two sides of the stirrups 62, so that the stirrups 62 are clamped between the two clamping plates 53, and further sliding the mounting plate 52 along the rail 51 so as to drive the stirrups 62 to be located at positions to be welded with the main reinforcements 61, welding the main reinforcements 61 and the stirrups 62 by using the welding members 43, and moving the two clamping plates 53 upward so as to release the stirrups 62, so that the stirrups 62 are fixedly connected with the main reinforcements 61 corresponding to the top surfaces of the sliding plates 3;

s3, the sensor senses the sliding plate 3 to drive the telescopic rod 23 to contract so as to drive the clamping plate 33 to slide downwards along the guide groove 221, so that the sliding plate 3 passes through the top surface of the support frame 2 to drive the sliding plate 3 to move to the next welding position;

and S4, repeating S2-S3 until the reinforcement cage is formed.

A construction method of a welding device of a steel reinforcement framework comprises the following steps:

s11, providing a plurality of stirrups 62, hanging the stirrups 62 on the hanging rod 32, providing a plurality of main reinforcements 61, and penetrating the main reinforcements 61 through the stirrups 62 and placing the main reinforcements on the top surface of the support frame 2;

s12, clamping the stirrup 62 by using the stirring piece 5, moving the stirring piece 5 along the length direction of the main reinforcement 61 to adjust the stirring piece 5 so that the stirring piece 5 drives the stirrup 62 to move to a position to be welded, and welding the main reinforcement 61 and the stirrup 62 by using the welding piece 43 so that the stirrup 62 is fixed on the main reinforcement 61;

s13, the sensor senses the slide plate 3 to drive the support frame 2 to lower, so that the slide plate 3 passes through the top surface of the support frame 2 and the slide plate 3 moves to the next welding area;

and repeating the steps from S12 to S13 until the reinforcement cage is formed.

The concrete embodiment of the welding device of the steel reinforcement framework of the invention is that S1, a plurality of stirrups 62 are hung on the hanging rod 32, and the main reinforcement 61 is arranged on the stirrups 62 in a penetrating way and is arranged on the guide groove 221 in a sliding way;

s2, sliding the mounting plate 52 along the rail 51 so that the clamping plates 53 correspond to the stirrups 62, and further moving the two clamping plates 53 along the sliding groove 531 so that the two clamping plates 53 move downward so that the two clamping plates 53 are respectively located at two sides of the stirrups 62, so that the stirrups 62 are clamped between the two clamping plates 53, and further sliding the mounting plate 52 along the rail 51 so as to drive the stirrups 62 to be located at positions to be welded with the main reinforcements 61, welding the main reinforcements 61 and the stirrups 62 by using the welding members 43, and moving the two clamping plates 53 upward so as to release the stirrups 62, so that the stirrups 62 are fixedly connected with the main reinforcements 61 corresponding to the top surfaces of the sliding plates 3;

s3, the sensor senses the sliding plate 3 to drive the telescopic rod 23 to contract so as to drive the clamping plate 33 to slide downwards along the guide groove 221, so that the sliding plate 3 passes through the top surface of the support frame 2 to drive the sliding plate 3 to move to the next welding position;

and repeating the steps from S2 to S3 until the reinforcement cage is formed.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a framework of steel reinforcement's welding set for fixed connection framework of steel reinforcement's main muscle and stirrup, its characterized in that, welding set includes:

two sliding rails which are oppositely arranged;

the supporting frames are arranged at intervals along the length direction of the sliding rails and are positioned between the two sliding rails, the height of each supporting frame is adjustable, and the main ribs are arranged at the tops of the supporting frames;

the sliding plate is arranged on the sliding rail in a sliding manner and is positioned below the main ribs;

the sensor is in driving connection with the support frame, and senses the sliding plate through the sensor to drive the support frame to be lowered, so that the sliding plate passes through the top surface of the support frame;

the hanging rods are arranged on the top surface of the sliding plate at intervals and are parallel to the main reinforcements, the stirrups are hung on the hanging rods, and the main reinforcements penetrate through the stirrups;

the poking piece is connected to the sliding plate in a position-adjustable manner and used for clamping the stirrup, the stirrup is clamped through the poking piece, and the poking piece is further moved along the length direction of the main reinforcement to drive the stirrup to move to a position to be welded;

and the welding piece is arranged on the top surface of the sliding plate and used for welding the main reinforcement and the stirrup.

2. The welding device of a steel reinforcement cage according to claim 1, wherein the support frame comprises:

the U-shaped plate is vertically arranged between the two slide rails and is U-shaped;

the guide grooves are formed in two sides of the U-shaped plate and are arranged oppositely;

the clamping plate is in an inverted U shape, two end parts of the clamping plate are respectively arranged on the guide grooves in a sliding mode, and the main ribs are arranged on the top surface of the clamping plate; and

the telescopic rod is fixedly connected between the U-shaped plate and the clamping plate and can be telescopically adjusted, the sensor is in driving connection with the telescopic rod, the sliding plate is sensed through the sensor to drive the telescopic rod to contract so as to drive the clamping plate to slide downwards along the guide groove, and therefore the sliding plate passes through the top surface of the support frame.

3. The apparatus for welding a reinforcing cage according to claim 2, further comprising a plurality of guide grooves spaced apart from each other on a top surface of the clamping plate, wherein the main bar is inserted into the guide grooves.

4. The device for welding the steel reinforcement framework according to claim 1, further comprising an inverted U-shaped gantry slidably disposed on the two slide rails, wherein the welding member is adjustably connected to the gantry, the gantry straddles the plurality of main reinforcements, and the slide plate is fixedly connected to the gantry.

5. The device for welding a steel reinforcement framework of claim 4, wherein the gantry comprises two opposite vertical portions slidably disposed on the slide rail and a horizontal portion fixedly connected to the top ends of the vertical portions, the welding member is adjustably connected to the horizontal portion, and the slide plate is fixedly connected to the two vertical portions.

6. The welding device for steel reinforcement frameworks according to claim 5, further comprising a connecting rod fixedly connected between the two vertical portions and parallel to the horizontal portion, and a plurality of vertical rods fixedly connected between the connecting rod and the sliding plate and located on two sides of the plurality of main bars.

7. The welding device for the steel reinforcement framework according to claim 1, further comprising a vertical plate vertically arranged on the top surface of the sliding plate, wherein one end of the hanging rod is fixedly connected to the vertical plate, and the other end of the hanging rod extends to the end portion, far away from the vertical plate, of the sliding plate.

8. The device for welding the steel reinforcement framework according to claim 1, further comprising a rail fixed to the top surface of the sliding plate and extending along the length direction of the main reinforcement, wherein the toggle member is slidably disposed on the rail, and the toggle member slides along the rail to drive the stirrup to move.

9. The welding device for the steel reinforcement framework as recited in claim 8, wherein the toggle member comprises a mounting plate slidably disposed on the track, sliding grooves formed on two side surfaces of the mounting plate, and two clamping plates slidably disposed on the sliding grooves, respectively;

the two clamping plates move downwards by moving the two clamping plates along the sliding groove, so that the two clamping plates are respectively positioned at two sides of the stirrup, and the stirrup is clamped between the two clamping plates.

10. A construction method of a welding apparatus of a reinforcing cage according to claim 1, comprising the steps of:

s11, providing a plurality of stirrups, hanging the stirrups on the hanging rod, providing a plurality of main reinforcements, and penetrating the main reinforcements through the stirrups and placing the main reinforcements on the top surface of the support frame;

s12, the stirrups are clamped by the aid of the stirring pieces, the stirring pieces are moved and adjusted along the length direction of the main reinforcements, so that the stirrups are driven by the stirring pieces to move to positions to be welded, and the main reinforcements and the stirrups are welded by the aid of the welding pieces, so that the stirrups are fixed on the main reinforcements;

s13, the sensor senses the sliding plate to drive the supporting frame to be lowered, so that the sliding plate passes through the top surface of the supporting frame, and the sliding plate moves to the next welding area;

and repeating the steps S12-S13 until the steel reinforcement framework is formed.

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