CN209773775U - Production equipment for reinforcing steel bar beam - Google Patents

Abstract

The utility model discloses a production facility of reinforcing bar roof beam, it belongs to the welding technology field, including vertical muscle conveyor, transmission, stirrup conveyor, positioner and welding set, vertical muscle conveyor is used for storing a plurality of vertical muscle classification and carry to the welding position the vertical muscle, transmission includes the support frame and can follow the gliding removal frame of support frame, the removal frame can press from both sides tightly the one end of vertical muscle and drive the step-by-step of vertical muscle; the stirrup conveying device is used for storing a plurality of stirrups and conveying the stirrups to the welding position, and the positioning device is arranged at the output end of the stirrup conveying device and used for clamping the stirrups and driving the stirrups to the welding position; and the welding device is arranged at the welding position and used for welding the longitudinal bars and the stirrups. Realize automatic welding production reinforcing bar roof beam, indulge the counterpoint of muscle and stirrup accurate, welding quality is high, and welding efficiency is high to practice thrift the labour, reduce intensity of labour.

Description

production equipment for reinforcing steel bar beam

Technical Field

the utility model relates to the field of welding technique, especially, relate to a production facility of reinforcing bar roof beam.

background

The reinforced beam comprises longitudinal ribs which are longitudinally arranged and are in a frame-shaped array, and a plurality of stirrups which are transversely arranged are arranged on the longitudinal ribs.

in the welding process, the stirrups and the longitudinal bars need to be welded in a crossed manner to form a three-dimensional net, and the longitudinal bars need to be placed at welding positions one by one to be welded with the stirrups. The operation process is complicated, extravagant manpower and materials, and indulge the muscle and the difficult counterpoint accuracy of stirrup, lead to welding precision poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a production facility of reinforcing bar roof beam to solve the operation process complicacy that exists among the prior art, extravagant manpower and materials, welding precision poor technical problem.

As the conception, the utility model adopts the technical proposal that:

a production facility of reinforcing bar roof beam includes:

the longitudinal rib conveying device is used for storing a plurality of longitudinal ribs in a classified mode and conveying the longitudinal ribs to welding positions;

the transmission device comprises a support frame and a movable frame capable of sliding along the support frame, and the movable frame can clamp one end of the longitudinal rib and drive the longitudinal rib to step;

the stirrup conveying device is used for storing a plurality of stirrups and conveying the stirrups to the welding position;

The positioning device is arranged at the output end of the stirrup conveying device and used for clamping the stirrups and driving the stirrups to the welding position;

And the welding device is arranged at the welding position and used for welding the longitudinal bars and the stirrups.

the stirrup conveying device at least comprises two chains arranged at intervals, wherein a channel for conveying stirrups is formed between the chains, each chain is provided with a plurality of separation blades, and the two separation blades are opposite to each other in the chains and used for clamping the stirrups.

the stirrup conveying device comprises four chains, two chains are arranged on two sides of the channel, and the two chains located on the same side are arranged at intervals along the extending direction of the stirrups.

Wherein the positioning device comprises:

a first clamping portion capable of clamping the stirrup;

and the first driving mechanism is connected with the first clamping part and used for driving the first clamping part to move.

wherein, the positioner still includes:

The second driving mechanism is connected with the first driving mechanism and can drive the stirrups to the welding position;

the second clamping part is positioned at the welding position and can position the stirrup;

and the third driving mechanism is connected with the second clamping part and used for driving the second clamping part to move.

Wherein, indulge muscle conveyor includes:

the feeding mechanism is used for feeding the longitudinal ribs;

The bearing mechanism is positioned below the feeding mechanism;

The conveying and storing mechanism is positioned between the feeding mechanism and the bearing mechanism, and a plurality of conveying and storing mechanisms are arranged at intervals from top to bottom;

The feeding mechanism can be with indulge the muscle and send to the top carry and store the mechanism, carry and store the mechanism and can store indulge the muscle or will indulge the muscle and convey downwards in proper order until on the receiving mechanism.

wherein, transport storage mechanism includes:

The conveying chain is uniformly provided with a plurality of conveying baffle plates at intervals on the periphery;

The storage part is arranged below the conveying chain in a sliding mode and can extend out of the output end of the conveying chain to be used for receiving the longitudinal ribs;

and the conveying rollers are rotatably arranged on the storage part, and a plurality of conveying rollers are arranged along the length direction of the longitudinal ribs at intervals.

wherein, the supporting mechanism includes:

the supporting chain is provided with a plurality of supporting baffles at intervals;

the bearing frame is arranged at the output end of the bearing chain;

And the bearing rollers are rotatably arranged on the bearing frame, and a plurality of the bearing rollers are arranged in parallel at intervals along the length direction of the longitudinal ribs.

the rack is arranged on the support frame, the gear is arranged on the moving frame, and the gear is meshed with the rack.

And a straightening device is arranged on one side of the longitudinal bar conveying device and is used for straightening the reinforcing steel bar raw material and cutting the reinforcing steel bar raw material to form the longitudinal bars.

The utility model has the advantages that:

The utility model provides a production facility of reinforced beam, through the longitudinal bar conveyor with a plurality of longitudinal bars classified storage and to welding position transport longitudinal bar, through the stirrup conveyor store the stirrup and to welding position transport stirrup; the stirrups are clamped through the positioning device, so that the welding device can conveniently weld the longitudinal reinforcements and the stirrups; after welding of one stirrup is completed, the longitudinal bar is driven to step by the moving frame of the transmission device, one stirrup is conveyed to the welding position again by the stirrup conveying device, and then the positioning welding is carried out, and the steps are repeated until the welding of the steel bar beam is completed; realize automatic welding production reinforcing bar roof beam, indulge the counterpoint of muscle and stirrup accurate, welding quality is high, and welding efficiency is high to practice thrift the labour, reduce intensity of labour.

Drawings

fig. 1 is a schematic structural diagram of a production facility of a reinforced beam provided by an embodiment of the present invention;

fig. 2 is a schematic view of a stirrup conveying device and a positioning device of a production facility of a reinforced beam provided by an embodiment of the invention;

Fig. 3 is an enlarged view at a in fig. 2;

FIG. 4 is a side view of FIG. 2;

FIG. 5 is a top view of FIG. 2;

Fig. 6 is a schematic view of a longitudinal bar conveying device of a production facility of a reinforced beam provided by an embodiment of the present invention;

FIG. 7 is a schematic view of the longitudinal web transport apparatus of FIG. 6 in another configuration;

Fig. 8 is a schematic view of a transmission device of a production apparatus for a reinforced beam according to an embodiment of the present invention;

FIG. 9 is a top plan view of the transmission of FIG. 8;

FIG. 10 is a side view of the transmission of FIG. 8;

fig. 11 is a schematic view of a welding device of a production facility of a reinforced beam provided by an embodiment of the present invention;

fig. 12 is a schematic view of the weld head of fig. 11.

in the figure:

1. A straightening device;

2. a longitudinal rib conveying device; 21. a feeding mechanism;

22. a carrying mechanism; 221. carrying a chain; 222. a receiving frame; 223. a receiving roller;

23. A conveying and storing mechanism; 231. a conveying chain; 232. a storage section; 233. a conveying roller; 234. a conveying baffle;

3. a transmission device; 31. a support frame; 32. a movable frame; 33. a rack; 34. a gear; 35. a speed reducer; 36. an elastic member; 37. a speed reduction plate;

4. a stirrup conveying device; 41. a chain; 42. a baffle plate;

5. A positioning device; 51. a first clamping portion; 52. a first drive mechanism; 53. a second drive mechanism; 54. a second clamping portion; 55. a third drive mechanism;

6. a welding device; 61. a robot; 62. a welding head; 621. fixing an electrode holder; 622. moving the electrode holder; 623. a fixed electrode; 624. the electrode is moved.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the technical solution of the present invention will be further explained by combining the drawings and by means of the specific implementation manner. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some but not all of the elements related to the present invention are shown in the drawings.

referring to fig. 1 to 12, an embodiment of the present invention provides a production facility for a steel bar beam, including a straightening device 1, a longitudinal bar conveying device 2, a transmission device 3, a stirrup conveying device 4, a positioning device 5, and a welding device 6. Production equipment of the steel bar beam can use wire rods or straight steel bars for feeding, steel bar raw materials are straightened and cut off through the straightening device 1 to form longitudinal bars, the longitudinal bars enter the longitudinal bar conveying device 2, a plurality of longitudinal bars are stored in a classified mode through the longitudinal bar conveying device 2 and conveyed to a welding position, the longitudinal bars of different specifications need to be conveyed to corresponding positions of the steel bar beam, the transmission device 3 comprises a support frame 31 and a movable frame 32 capable of sliding along the support frame 31, and the movable frame 32 can clamp one end of each longitudinal bar and drive the longitudinal bars to step; meanwhile, the stirrup conveying device 4 can store a plurality of stirrups and can convey the stirrups to a welding position, and the positioning device 5 is arranged at the output end of the stirrup conveying device 4 and used for clamping the stirrups; the welding device 6 is arranged at the welding position and used for welding the longitudinal bars and the stirrups.

after welding of one stirrup is completed, the movable frame 32 of the transmission device 3 drives the longitudinal stirrups to step, the stirrup conveying device 4 conveys one stirrup to the welding position again, and then the positioning welding is carried out, and the steps are repeated until the welding of the steel bar beam is completed; realize automatic welding production reinforcing bar roof beam, indulge the counterpoint of muscle and stirrup accurate, welding quality is high, and welding efficiency is high to practice thrift the labour, reduce intensity of labour.

the straightening device 1 comprises at least a straightening roll and a cutting mechanism, and in the embodiment, the straightening device 1 adopts a straightening and cutting machine which is already in the prior art and is not described in more detail.

the stirrup conveying device 4 at least comprises two chains 41 arranged at intervals, a channel for conveying stirrups is formed between the two chains 41, each chain 41 is provided with a plurality of separation blades 42, and two opposite separation blades 42 in the two chains 41 are used for clamping the stirrups. After the stirrup is clamped by the retaining pieces 42, the stirrup can be driven to move in the rotating process of the chain 41, so that the automatic conveying of the stirrup is realized.

in this embodiment, the stirrup conveying device 4 comprises four chains 41, two chains 41 are arranged on two sides of the passage, and the two chains 41 on the same side are arranged at intervals along the extending direction of the stirrup. That is to say, two chains 41 constitute a set of, and four chains 41 are used for pressing from both sides two positions of tight stirrup, guarantee that the stirrup is fixed a position accurately in the removal process, prevent that the stirrup from taking place the aversion. The chain 41 is wound around sprockets that are driven by a motor and will not be described in detail herein.

the positioning devices 5 are arranged at the output end of the stirrup conveying device 4 and are symmetrically arranged at two sides of the channel. The positioning device 5 comprises a first clamping part 51, a first driving mechanism 52, a second driving mechanism 53, a second clamping part 54 and a third driving mechanism 55, wherein the first clamping part 51 is positioned at the output end of the chain 41 and can clamp the stirrup, and the first driving mechanism 52 is connected with the first clamping part 51 and is used for driving the first clamping part 51 to move so as to be convenient for clamping or loosening the stirrup; the second driving mechanism 53 is connected with the first driving mechanism 52 and is used for driving the stirrup to move; the second clamping portion 54 is located at the welding position and can position the stirrup, and the third driving mechanism 55 is connected with the second clamping portion 54 and used for driving the second clamping portion 54 to move, so that the stirrup can be positioned conveniently. Through the cooperation of the first clamping part 51 and the second clamping part 54, the stirrup can accurately reach the welding position and be positioned at the welding position, and the stirrup cannot be displaced in the welding process.

In the present embodiment, the first clamping portion 51 is two clamping jaws, and the first driving mechanism 52 is two first air cylinders, and each clamping jaw is driven by one first air cylinder. The second driving mechanism 53 is two second cylinders, and each first cylinder is driven by one second cylinder until the stirrup reaches the welding position from the output end of the chain 41. The second clamping part 54 is two electromagnets, the third driving mechanism 55 is two third cylinders, each electromagnet is driven by one third cylinder, stirrups are positioned at welding positions by magnetic attraction, the clamping jaws can loosen the stirrups and then return, and the welding device 6 can perform welding. In order to ensure stable clamping of the positioning stirrup, four groups of clamping jaws and electromagnets are arranged, the arrangement mode of the clamping jaws and the arrangement mode of the electromagnets are the same as that of the chains 41, and the clamping jaws and the electromagnets are used for clamping two positions of the positioning stirrup. Of course, besides the above-mentioned clamping jaws and electromagnets, the clamping portion may also be a clamping block with a groove or other structure capable of fixing the stirrup, which is not limited herein; in addition to the above-mentioned air cylinder, the driving mechanism may also select a linear motion formed by a motor through a rack and pinion, a worm gear, and the like, and is not limited herein.

Indulge muscle conveyor 2 includes feeding mechanism 21, receiving mechanism 22 and carries and store mechanism 23, feeding mechanism 21 is used for supplying with and indulges the muscle, receiving mechanism 22 is located feeding mechanism 21's below, carry and store mechanism 23 and be located between feeding mechanism 21 and receiving mechanism 22, top-down interval is provided with a plurality of transport and stores mechanism 23, feeding mechanism 21 can convey the transport storage mechanism 23 of the top to indulging the muscle, carry and store mechanism 23 and can store indulging the muscle or will indulge the muscle and convey downwards in proper order until receiving mechanism 22 on. Receiving mechanism 22 and carry and store mechanism 23 and mutually support, easy operation can place the reinforcing bar classification of various specification types, makes things convenient for the later stage to take, has saved the manpower, has reduced manufacturing cost, has improved production efficiency.

The feeding mechanism 21 includes a trough and a driving portion for driving the trough to rotate, the longitudinal bar is placed in the trough, and the driving portion drives the trough to rotate, so that the longitudinal bar is separated from the trough and reaches the uppermost conveying and storing mechanism 23. In this embodiment, the driving part is a cylinder, and the cylinder drives the trough to rotate through a slider-crank mechanism.

carry storage mechanism 23 including carrying chain 231, storage portion 232 and conveying roller 233, the periphery interval equipartition of carrying chain 231 is provided with a plurality of transport baffles 234, indulges the muscle and deviates from the silo and falls into between the adjacent transport baffles 234, along with carrying chain 231 to rotate, drives and indulges the muscle and remove. Storage portion 232 slides and sets up in the below of carrying chain 231, and storage portion 232 can stretch out to the output of carrying chain 231 and be used for receiving and indulge the muscle, and conveying roller 233 rotates and sets up on storage portion 232, and a plurality of conveying roller 233 sets up along the length direction parallel interval who indulges the muscle. The conveying chain 231 is wound around sprockets, which are driven by a motor and will not be described in detail herein. In order to ensure the stability of the transmission, the width of the conveying chains 231 may be relatively large, or each conveying storage mechanism 23 at least includes two groups of conveying chains 231, and the two groups of conveying chains 231 are arranged at intervals so as to support the longitudinal ribs.

the receiving mechanism 22 comprises a receiving chain 221, a receiving frame 222 and receiving rollers 223, a plurality of receiving baffles are uniformly arranged on the periphery of the receiving chain 221 at intervals, the receiving frame 222 is arranged at the output end of the receiving chain 221, the receiving rollers 223 are rotatably arranged on the receiving frame 222, and the receiving rollers 223 are arranged in parallel at intervals along the length direction of the longitudinal ribs. The receiving chain 221 is wound around a sprocket wheel, which is driven by a motor and will not be described herein.

When the feeding mechanism 21 transfers the longitudinal ribs to the conveying chain 231 of the conveying storage mechanism 23 of the first layer, if the specification of the longitudinal ribs is corresponding to the conveying storage mechanism 23 of the first layer, the storage part 232 extends out, and the longitudinal ribs on the conveying chain 231 fall onto the storage part 232; otherwise, the storage part 232 is in a retracted state, the longitudinal ribs on the conveying chain 231 fall onto the conveying chain 231 of the conveying storage mechanism 23 on the second layer, and so on, and if the specifications of the longitudinal ribs do not correspond to all the conveying storage mechanisms 23, the longitudinal ribs fall onto the receiving chain 221 of the receiving mechanism 22, and are further conveyed to the receiving roller 223 through the receiving chain 221.

Because of the horizontal of reinforcing bar roof beam, vertically need a plurality of reinforcing bars, consequently to the muscle of indulging of different specifications classify, be convenient for carry storage mechanism 23 with the muscle of indulging of difference carry to the welding position that corresponds. When the conveying roller 233 of the storage part 232 rotates, the longitudinal rib can be driven to move to the welding position; alternatively, when the longitudinal bar is pulled by an external force to move, the conveying roller 233 rotates, and the friction force can be reduced. When the adapting roller 223 rotates, the longitudinal ribs can be driven to move to the welding position; alternatively, when the longitudinal bar is pulled by an external force to move, the receiving roller 223 rotates, and the friction force can be reduced. The rotation of the conveying roller 233 and the receiving roller 223 can be driven by a motor through a transmission mechanism, and the details are not described herein. When the longitudinal bar is dragged by external force, the external force can be manual force or a traction mechanism, the traction mechanism comprises a clamping portion and a driving portion, the clamping portion can clamp the longitudinal bar, and the driving portion is used for driving the clamping portion to move until one end of the longitudinal bar reaches a position where the clamping portion can be connected with the moving frame 32 of the transmission device 3.

One end of the longitudinal rib is connected with the moving frame 32 of the transmission device 3, and the moving frame 32 drives the longitudinal rib to step. The supporting frame 31 is provided with a rack 33, the moving frame 32 is provided with a gear 34, and the gear 34 is meshed with the rack 33. The gear 34 is driven by a motor through a speed reducer 35. Alternatively, the supporting frame 31 and the moving frame 32 are slidably engaged with each other through a slider and a guide rail, which is not limited herein.

an elastic member 36 is disposed between the support frame 31 and the moving frame 32, and the elastic member 36 can press the gear 34 against the rack 33. The speed reducer 35 is mounted on a speed reducing plate 37, one end of the speed reducing plate 37 is pivoted with the moving frame 32, the other end of the speed reducing plate 37 is connected with one end of the elastic element 36, and the other end of the elastic element 36 is connected with the supporting frame 31 through a support rod. The elastic element 36 exerts a pressure or a tension on the reduction plate 37 in the direction of the rack 33, so that the gear 34 is pressed against the rack 33, ensuring the stability of the transmission.

in this embodiment, in order to ensure the stability of the movement of the moving frame 32, two racks 33 are spaced on the supporting frame 31, correspondingly, two gears 34 are disposed on the moving frame 32, a gear shaft of each gear 34 is connected to one speed reducer 35, and the two speed reducers 35 are driven by one motor. The gear 34 moves along the rack 33 during rotation, thereby moving the moving rack 32 along the rack 33.

the welding device 6 can be used for welding by a robot 61, the output end of the robot 61 is connected with a welding head 62 and can drive the welding head 62 to be close to or far away from the intersection point of the longitudinal bar and the stirrup. Thereby drive bonding tool 62 through robot 61 and move and weld the crosspoint of stirrup and vertical muscle in proper order, degree of mechanization is higher, and machining efficiency is high, has greatly reduced intensity of labour, is suitable for using widely. In order to improve the working efficiency, robots 61 are arranged on two sides of the longitudinal bar, and a welding head 62 is connected to the output end of each robot 61.

The welding head 62 may be a welding head in the prior art, or the welding head 62 includes a fixed electrode holder 621, a movable electrode holder 622, and a driving portion, the fixed electrode holder 621 is provided with a fixed electrode 623, the movable electrode holder 622 is provided with a movable electrode 624, and the driving portion is in insulated connection with the movable electrode holder 622 and can drive the movable electrode holder 622 and the movable electrode 624 to move relative to the fixed electrode 623, so that the fixed electrode 623 and the movable electrode 624 clamp the steel bar and are electrified for welding. The driving part may be, but is not limited to, a cylinder.

Of course, in order to ensure the stability of the support and the transmission, the straightening device 1, the longitudinal bar conveying device 2, the transmission device 3, the stirrup conveying device 4, the positioning device 5 and the welding device 6 are all arranged on the support, one support can be arranged for a plurality of devices, or one support can be arranged for each device, which is not limited herein and can be arranged according to the actual situation.

The above embodiments have been described only the basic principles and features of the present invention, and the present invention is not limited by the above embodiments, and is not departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. a production facility of reinforcing bar roof beam characterized in that includes:

The longitudinal rib conveying device (2) is used for storing a plurality of longitudinal ribs in a classified mode and conveying the longitudinal ribs to a welding position;

The transmission device (3) comprises a support frame (31) and a moving frame (32) capable of sliding along the support frame (31), and the moving frame (32) can clamp one end of the longitudinal rib and drive the longitudinal rib to step;

a stirrup conveying device (4) used for storing a plurality of stirrups and capable of conveying the stirrups to the welding position;

the positioning device (5) is arranged at the output end of the stirrup conveying device (4) and is used for clamping the stirrups and driving the stirrups to the welding position;

and the welding device (6) is arranged at the welding position and is used for welding the longitudinal bars and the stirrups.

2. A reinforcing bar beam production apparatus according to claim 1, wherein said stirrup transporting device (4) comprises at least two spaced chains (41), a channel for transporting said stirrups is formed between said two chains (41), each chain (41) has a plurality of retaining pieces (42), and two opposing retaining pieces (42) of said two chains (41) are used for clamping said stirrups.

3. A reinforcing bar beam production apparatus according to claim 2, wherein said stirrup transport means (4) comprises four said chains (41), two said chains (41) are provided on both sides of said channel, and two said chains (41) on the same side are spaced apart in the direction of extension of said stirrups.

4. a reinforcing bar production plant according to claim 1, wherein said positioning means (5) comprise:

A first clamping portion (51) capable of clamping the stirrup;

and the first driving mechanism (52) is connected with the first clamping part (51) and is used for driving the first clamping part (51) to move.

5. A reinforcing bar production plant according to claim 4, wherein said positioning means (5) further comprise:

the second driving mechanism (53) is connected with the first driving mechanism (52), and the second driving mechanism (53) can drive the stirrups to the welding position;

a second clamping portion (54) located at the welding position and capable of positioning the stirrup;

And the third driving mechanism (55) is connected with the second clamping part (54) and is used for driving the second clamping part (54) to move.

6. A reinforcing bar beam production apparatus according to any one of claims 1 to 5, wherein said longitudinal bar conveying means (2) comprises:

A feeding mechanism (21) for feeding the longitudinal ribs;

the bearing mechanism (22) is positioned below the feeding mechanism (21);

The conveying and storing mechanism (23) is positioned between the feeding mechanism (21) and the bearing mechanism (22), and a plurality of conveying and storing mechanisms (23) are arranged at intervals from top to bottom;

Feeding mechanism (21) can with indulge the muscle and send to the top carry and store mechanism (23), carry and store mechanism (23) and can store indulge the muscle or carry and store mechanism (23) and can with indulge the muscle and convey downwards in proper order until on receiving mechanism (22).

7. A production plant for a reinforcing bar according to claim 6, characterized in that said transport and storage means (23) comprise:

The conveying device comprises a conveying chain (231), wherein a plurality of conveying baffle plates (234) are uniformly distributed on the periphery of the conveying chain (231) at intervals;

the storage part (232) is arranged below the conveying chain (231) in a sliding mode, and the storage part (232) can extend out to the output end of the conveying chain (231) to be used for receiving the longitudinal ribs;

and the conveying rollers (233) are rotatably arranged on the storage part (232), and the conveying rollers (233) are arranged in parallel at intervals along the length direction of the longitudinal ribs.

8. A production plant for a reinforcing bar according to claim 6, characterized in that said receiving means (22) comprise:

The supporting chain (221), the periphery of the supporting chain (221) is uniformly provided with a plurality of supporting baffles at intervals;

The bearing frame (222) is arranged at the output end of the bearing chain (221);

and the bearing rollers (223) are rotatably arranged on the bearing frame (222), and the plurality of bearing rollers (223) are arranged in parallel at intervals along the length direction of the longitudinal rib.

9. a reinforcing bar beam production apparatus according to any one of claims 1 to 5, wherein said support frame (31) is provided with a rack (33), said movable frame (32) is provided with a gear (34), and said gear (34) is engaged with said rack (33).

10. a reinforcing bar beam production apparatus according to any one of claims 1 to 5, wherein a straightening device (1) is provided at one side of the longitudinal bar conveying device (2), and the straightening device (1) straightens and cuts reinforcing bar stock to form the longitudinal bars.