CN215786441U - A reinforcing bar feed arrangement for steel bar truss production - Google Patents

Abstract

The utility model discloses a steel bar feeding device for steel bar truss production, and belongs to the technical field of novel building material production equipment. The steel bar unwinding device comprises five steel bar unwinding structures, five vertical guide rollers, five steel bar guide structures and a steel bar positioning structure, wherein the vertical guide roller is arranged at the front right of each steel bar unwinding structure; the steel bar guiding structure comprises a rectangular four-hole traction plate, a pair roller guiding mechanism, a left and right roller straightening mechanism, an upper and lower roller straightening mechanism, a pair roller guiding mechanism, a left and right roller straightening mechanism and a pair roller straightening mechanism, wherein the pair roller guiding mechanism, the left and right roller straightening mechanism and the upper and lower roller straightening mechanism are arranged on the left side of the rectangular four-hole traction plate side by side in a front-back mode; the steel bar positioning structure comprises a row-shaped four-hole traction plate and a guide wheel traction mechanism right above the middle of the row-shaped four-hole traction plate, and four second traction holes are arranged on the row-shaped four-hole traction plate in a left-right side-by-side mode.

Description

A reinforcing bar feed arrangement for steel bar truss production

Technical Field

The utility model belongs to the technical field of novel building material production equipment, and particularly relates to a steel bar feeding device for steel bar truss production, which can output five steel bars with different sizes according to a certain arrangement sequence.

Background

Since the development and the use of the assembly type or welding type steel bar truss floor bearing plate, the advantages of the floor bearing plate are shown in the construction process, and the overall construction effect is approved by all parties.

Current steel bar truss floor carrier plate includes a plurality of steel bar trusses that set up side by side on die block board and the die block board, and steel bar truss is by the end floor reinforcing bar of top floor reinforcing bar, top floor reinforcing bar both sides below and the web member reinforcing bar between top floor reinforcing bar and the end floor reinforcing bar, and the web member reinforcing bar extends to the below of end floor reinforcing bar and with die block board welded fastening (treat the welding department), and the web member reinforcing bar is wavy. For example, patent with application number CN 201810481141.8 discloses a steel bar truss floor support plate, which comprises a framework located above and a bottom template located below, wherein the framework and the bottom template are both horizontally laid; the framework comprises a plurality of steel bar trusses arranged at intervals along the width direction of the framework, and the steel bar trusses extend along the length direction of the framework; the steel bar truss comprises first floor steel bars extending along the length direction of the framework, second floor steel bars extending along the length direction of the framework are respectively arranged below two sides of the first floor steel bars, and the second floor steel bars are parallel to the first floor steel bars; the left side and the right side of the first floor slab steel bar are respectively connected with the second floor slab steel bars on the two sides through web member steel bars; the web member steel bars are in a wave shape extending along the length direction of the framework; the wave crests of the web member steel bars are fixedly connected with the first floor steel bars, and the wave troughs of the web member steel bars extend to the lower part of the second floor steel bars and are fixedly connected with the second floor steel bars; the upper surface and the lower surface of the valley bottom of the wave trough of the web member reinforcing steel bar are both planes; the bottom template is positioned below the second floor steel bar, and the upper surface of the bottom template is tightly attached to the lower surface of the trough of the web member steel bar; the bottom template is fixedly connected with each wave trough of the web member reinforcing steel bar through a connecting device respectively; connecting device includes self-tapping screw, sets up first through-hole on the die block and sets up second through-hole on the valley bottom of trough, self-tapping screw runs through first through-hole and second through-hole and screws up the die block on the trough of web member reinforcing bar. The above is an assembly type structure, and the welding type structure is that the steel bar truss (web member steel bar) is fixed with the bottom template through a welding mode.

The steel bar truss is usually composed of five steel bars, and comprises three large steel bars and two small steel bars, wherein the three large steel bars are distributed in an isosceles triangle shape, and the two small steel bars are wavy and are respectively arranged on two waists of the isosceles triangle. In the automatic assembling process of the steel bar truss, five steel bars need to be output in a certain arrangement mode (the common arrangement mode is that four steel bars below and one steel bar above are arranged side by side, the four steel bars below are arranged side by side left and right and sequentially comprise a large steel bar, a small steel bar and a large steel bar, and the steel bar above is the large steel bar). The prior art does not have a reinforcing steel bar feeding device specially used for producing a reinforcing steel bar truss.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, an embodiment of the present invention provides a steel bar feeding device for steel bar truss production, which can output five steel bars with different sizes according to a certain arrangement sequence. The technical scheme is as follows:

the embodiment of the utility model provides a reinforcing steel bar feeding device for reinforcing steel bar truss production, which comprises a rack, five reinforcing steel bar unreeling structures 1 arranged on the left side of the rack in parallel front and back, five vertical guide rollers 2 vertically arranged on the rack, five reinforcing steel bar guide structures 3 arranged on the right side of the rack in parallel front and back and a reinforcing steel bar positioning structure 4 on the rack, wherein a vertical guide roller 2 is arranged at the right front of each reinforcing steel bar unreeling structure 1, a reinforcing steel bar guide structure 3 is correspondingly arranged at the right side of each reinforcing steel bar unreeling structure 1, the reinforcing steel bar guide structures 3 are arranged at the right rear of the corresponding vertical guide rollers 2, and the reinforcing steel bar positioning structure 4 is arranged right behind the reinforcing steel bar guide structure 3 at the rearmost part; the steel bar guiding structure 3 comprises a rectangular four-hole traction plate 31 arranged on the rack in the left-right direction, a pair roller guiding mechanism 32, a left-right roller straightening mechanism 33, an upper-lower roller straightening mechanism 34 and a pair roller guiding mechanism 32 arranged on the rack in parallel in the front-back direction on the left side of the rectangular four-hole traction plate 31, wherein four first traction holes 35 are arranged on the rectangular four-hole traction plate 31 in a rectangular manner; the steel bar positioning structure 4 comprises a row-shaped four-hole traction plate 41 arranged on the rack in the left-right direction and a guide wheel traction mechanism 42 arranged on the rack and positioned right above the middle part of the row-shaped four-hole traction plate 41, wherein four second traction holes 43 are arranged on the row-shaped four-hole traction plate 41 in parallel in the left-right direction; the reinforcing steel bar 5 is wound out by the reinforcing steel bar unwinding structure 1, bypasses the front side of the corresponding vertical guide roller 2, sequentially passes through the corresponding pair roller guide mechanism 32, the left and right roller straightening mechanism 33 and the upper and lower roller straightening mechanism 34, then reaches the first traction hole 35 or the reinforcing steel bar positioning structure 4 of the reinforcing steel bar guide structure 3 at the rear part, and finally is output by the second traction hole 43 or the guide wheel traction mechanism 42 of the reinforcing steel bar positioning structure 4.

The reinforcing steel bars 5 output by the last reinforcing steel bar unreeling structure 1 are led to the second traction hole 43 at the leftmost end, and the reinforcing steel bars 5 output by the remaining four reinforcing steel bar unreeling structures 1 are led to the guide wheel traction mechanism 42 and the remaining three second traction holes 43 respectively.

Specifically, the five reinforcement guiding structures 3 in the embodiment of the present invention are, from front to back, a first reinforcement guiding structure, a second reinforcement guiding structure, a third reinforcement guiding structure, a fourth reinforcement guiding structure, and a fifth reinforcement guiding structure in sequence, the rectangular four-hole pulling plate 31 is not disposed at the first reinforcement guiding structure, and the first rectangular four-hole pulling plate 411, the second rectangular four-hole pulling plate 412, the third rectangular four-hole pulling plate 413, and the fourth rectangular four-hole pulling plate 414 are disposed on the second reinforcement guiding structure, the third reinforcement guiding structure, the fourth reinforcement guiding structure, and the fifth reinforcement guiding structure, respectively; the five steel bar unreeling structures 1 are a first large steel bar unreeling structure, a second large steel bar unreeling structure, a first small steel bar unreeling structure, a second small steel bar unreeling structure and a third large steel bar unreeling structure from front to back, and respectively output a first large steel bar 51, a second large steel bar 52, a first small steel bar 53, a second small steel bar 54 and a third large steel bar 55; a first large steel bar 51 is arranged in a first traction hole 35 at the lower right side of the first rectangular four-hole traction plate 411; the second large steel bars 52 are arranged in the first drawing holes 35 at the right lower side of the second rectangular four-hole drawing plate 412, and the first large steel bars 51 are arranged in the first drawing holes 35 at the right upper side of the second rectangular four-hole drawing plate; a second large steel bar 52 is arranged in the first drawing hole 35 at the lower right side of the third rectangular four-hole drawing plate 413, a first large steel bar 51 is arranged in the first drawing hole 35 at the upper right side of the third rectangular four-hole drawing plate 413, and a first small steel bar 53 is arranged in the first drawing hole 35 at the lower left side of the third rectangular four-hole drawing plate 413; the second large steel bar 52 is arranged in the first drawing hole 35 at the lower right side of the fourth rectangular four-hole drawing plate 414, the first small steel bar 53 is arranged in the first drawing hole 35 at the upper right side of the fourth rectangular four-hole drawing plate, the second small steel bar 54 is arranged in the first drawing hole 35 at the lower left side of the fourth rectangular four-hole drawing plate, and the first large steel bar 51 is arranged in the first drawing hole 35 at the upper left side of the fourth rectangular four-hole drawing plate 414; the four second traction holes 43 are sequentially provided with a second large steel bar 52, a second small steel bar 54, a first small steel bar 53 and a third large steel bar 55 from right to left, and the guide wheel traction mechanism 42 is internally provided with a first large steel bar 51.

The pair-roller guide mechanism 32 in the embodiment of the present invention includes two lateral guide rollers arranged side by side up and down, the lateral guide rollers are arranged in the left-right direction, and the reinforcing bar 5 passes through between the two lateral guide rollers.

The left and right roller straightening mechanism 33 in the embodiment of the utility model comprises a row of fixed vertical straightening wheels on the right side and a row of movable vertical straightening wheels on the left side, the fixed vertical straightening wheels are arranged on the rack along the vertical direction, the movable vertical straightening wheels are vertically arranged and can be arranged on the rack in a left-right direction adjusting manner, the fixed vertical straightening wheels and the movable vertical straightening wheels are positioned on the same horizontal plane, the fixed vertical straightening wheels and the movable vertical straightening wheels are arranged in a staggered manner, the reinforcing steel bars 5 pass through the fixed vertical straightening wheels and the movable vertical straightening wheels, and the number of the fixed vertical straightening wheels and the movable vertical straightening wheels is more than three.

The upper and lower roller straightening mechanisms 34 in the embodiment of the present invention include a row of lower horizontal straightening wheels and a row of upper horizontal straightening wheels, the fixed horizontal straightening wheels are disposed on the rack in the left-right direction, the movable horizontal straightening wheels are disposed in the left-right direction and are disposed on the rack in an adjustable manner, the fixed horizontal straightening wheels and the movable horizontal straightening wheels are disposed on the same vertical surface in the front-back direction, the reinforcing steel bars 5 pass through the fixed horizontal straightening wheels and the movable horizontal straightening wheels, and the number of the fixed horizontal straightening wheels and the movable horizontal straightening wheels is greater than two.

The guide wheel traction mechanism 42 in the embodiment of the utility model is located right above the middle part between the two second traction holes 43 and comprises two guide wheels which are arranged side by side up and down, the guide wheels are arranged along the left-right direction, and the reinforcing steel bars 5 pass through the two guide wheels.

The technical scheme provided by the embodiment of the utility model has the following beneficial effects: the embodiment of the utility model provides a steel bar feeding device for steel bar truss production, which can output five steel bars with different sizes according to a certain arrangement sequence. And straightening the reinforcing steel bar while outputting the reinforcing steel bar.

Drawings

Fig. 1 is a partial structural schematic view of a reinforcing bar feeding device for reinforcing bar truss production according to an embodiment of the present invention;

FIG. 2 is a schematic view of a first rectangular four-hole plate;

FIG. 3 is a schematic structural view of a second rectangular four-hole traction plate;

FIG. 4 is a schematic structural view of a third rectangular four-hole traction plate;

FIG. 5 is a schematic view of a fourth rectangular four-hole plate;

fig. 6 is a schematic structural diagram of a row-shaped four-hole traction plate.

In the figure: the steel bar unwinding device comprises a steel bar unwinding structure 1, a vertical guide roller 2, a steel bar guide structure 3, a steel bar positioning structure 4 and a steel bar 5;

a 31 rectangular four-hole traction plate, a 32 pair roller guide mechanism, a 33 left and right roller straightening mechanism, a 34 upper and lower roller straightening mechanism and a 35 first traction hole;

a 41-row-shaped four-hole traction plate, a 42 guide wheel traction mechanism and a 43 second traction hole;

51 a first large rebar, 52 a second large rebar, 53 a first small rebar, 54 a second small rebar, 55 a third large rebar;

411 a first rectangular four-hole retractor plate, 412 a second rectangular four-hole retractor plate, 413 a third rectangular four-hole retractor plate, 414 a fourth rectangular four-hole retractor plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 6, an embodiment of the present invention provides a reinforcing bar feeding apparatus for manufacturing a reinforcing bar truss, the device includes the frame, five reinforcing bar unreel structure 1 (vertical setting) that set up side by side around and on the frame in the frame left side, rotate and locate the frame, unanimous with conventional technique, vertical guide roller 2 of five vertical guide roller in the frame is vertically located, five reinforcing bar guide structure 3 (being used for guiding reinforcing bar 5 and straightening reinforcing bar 5) that the frame right side set up side by side around and, reinforcing bar location structure 4 (being used for 5 reinforcing bars 5 according to predetermined arrangement output) etc. in the frame, every reinforcing bar unreels structure 1's right front and is equipped with a vertical guide roller 2, every reinforcing bar unreels structure 1's right side correspondence and is equipped with a reinforcing bar guide structure 3, reinforcing bar guide structure 3 locates the right back that corresponds vertical guide roller 2, reinforcing bar guide structure 4 locates the reinforcing bar guide structure 3's at rearmost rear dead behind. The reinforcing steel bar guiding structure 3 comprises a rectangular four-hole traction plate 31 (specifically, a rectangular plate) arranged on the rack in the left-right direction, a pair roller guiding mechanism 32, a left-right roller straightening mechanism 33, an upper-lower roller straightening mechanism 34 and the like which are arranged on the rack in a front-back side-by-side manner on the left side of the rectangular four-hole traction plate 31, wherein the pair roller guiding mechanism 32, the left-right roller straightening mechanism 33 and the upper-lower roller straightening mechanism 34 are positioned on the same front-back horizontal line. Four first traction holes 35 (specifically, circular holes arranged in the front-back direction, and a wear-resistant sleeve can be arranged on the first traction holes) are arranged on the rectangular four-hole traction plate 31 in a rectangular shape (arranged in the left-right direction). The reinforcing steel bar positioning structure 4 comprises a row-shaped four-hole traction plate 41 (specifically, a rectangular plate) arranged on the rack and a guide wheel traction mechanism 42 (arranged on the left and right sides and behind the row-shaped four-hole traction plate 41) arranged on the rack and directly above the middle part of the row-shaped four-hole traction plate 41, and the like, wherein four second traction holes 43 (specifically, round holes arranged in the front and back directions and a wear-resistant sleeve can be arranged on the round holes) are arranged on the row-shaped four-hole traction plate 41 side by side. Reinforcing bar 5 is unreeled structure 1 by the reinforcing bar and is walked around out, walk around the front side that corresponds vertical guide roller 2, back right in the slant again, pass through corresponding pair roller guide mechanism 32 in proper order, control gyro wheel mechanism 33 and upper and lower gyro wheel mechanism 34 of flare-outing, again to the first pull hole 35 or the reinforcing bar location structure 4 of the reinforcing bar guide structure 3 at rear (the reinforcing bar guide structure 3 at the adjacent rear of the reinforcing bar guide structure 3 that corresponds at present), continue to pass or not pass the first pull hole 35 of the same position of reinforcing bar guide structure 3 or different positions as required, last by the output of reinforcing bar location structure 4's second pull hole 43 or guide pulley drive mechanism 42, the requirement when five reinforcing bars 5 are exported: four reinforcing bars (by four hole traction plates 41 of row form) in the below, a reinforcing bar (by guide pulley drive mechanism 42 output) in top, four reinforcing bars of below are controlled and set up side by side and be big reinforcing bar, little reinforcing bar and big reinforcing bar in proper order, and a reinforcing bar of top is big reinforcing bar.

The reinforcing steel bars 5 output by the last reinforcing steel bar unreeling structure 1 are led to the second traction hole 43 at the leftmost end, and the reinforcing steel bars 5 output by the remaining four reinforcing steel bar unreeling structures 1 are led to the guide wheel traction mechanism 42 and the remaining three second traction holes 43 respectively.

Specifically, referring to fig. 2 to 6, the five reinforcement guiding structures 3 in the embodiment of the present invention are sequentially a first reinforcement guiding structure, a second reinforcement guiding structure, a third reinforcement guiding structure, a fourth reinforcement guiding structure and a fifth reinforcement guiding structure from front to back, the rectangular four-hole pulling plate 31 is not disposed at the first reinforcement guiding structure, and the first rectangular four-hole pulling plate 411, the second rectangular four-hole pulling plate 412, the third rectangular four-hole pulling plate 413 and the fourth rectangular four-hole pulling plate 414 are disposed on the second reinforcement guiding structure, the third reinforcement guiding structure, the fourth reinforcement guiding structure and the fifth reinforcement guiding structure, respectively. The five reinforcing steel bar unreeling structures 1 are sequentially a first large reinforcing steel bar unreeling structure, a second large reinforcing steel bar unreeling structure, a first small reinforcing steel bar unreeling structure, a second small reinforcing steel bar unreeling structure and a third large reinforcing steel bar unreeling structure from front to back and respectively output a first large reinforcing steel bar 51, a second large reinforcing steel bar 52, a first small reinforcing steel bar 53, a second small reinforcing steel bar 54 and a third large reinforcing steel bar 55. The first large rebar 51, the second large rebar 52, and the third large rebar 55 have a larger diameter, and the first small rebar 53 and the second small rebar 54 have a smaller diameter. The first drawing hole 35 at the lower right side of the first rectangular four-hole drawing plate 411 is provided with a first large steel bar 51, and the rest first drawing holes 35 are empty. The second large steel bar 52 is arranged in the first drawing hole 35 at the lower right side of the second rectangular four-hole drawing plate 412, the first large steel bar 51 is arranged in the first drawing hole 35 at the upper right side of the second rectangular four-hole drawing plate, and the rest first drawing holes 35 are empty. The second large steel bar 52 is arranged in the first drawing hole 35 at the lower right side of the third rectangular four-hole drawing plate 413, the first large steel bar 51 is arranged in the first drawing hole 35 at the upper right side of the third rectangular four-hole drawing plate, the first small steel bar 53 is arranged in the first drawing hole 35 at the lower left side of the third rectangular four-hole drawing plate, and the rest first drawing holes 35 are empty. The second large steel bar 52 is arranged in the first drawing hole 35 at the lower right side of the fourth rectangular four-hole drawing plate 414, the first small steel bar 53 is arranged in the first drawing hole 35 at the upper right side of the fourth rectangular four-hole drawing plate, the second small steel bar 54 is arranged in the first drawing hole 35 at the lower left side of the fourth rectangular four-hole drawing plate, and the first large steel bar 51 is arranged in the first drawing hole 35 at the upper left side of the fourth rectangular four-hole drawing plate 414. The four second traction holes 43 are sequentially provided with a second large steel bar 52, a second small steel bar 54, a first small steel bar 53 and a third large steel bar 55 from right to left, and the guide wheel traction mechanism 42 is provided with a first large steel bar 51.

Referring to fig. 1, the counter roller guide mechanism 32 according to the embodiment of the present invention includes two lateral guide rollers arranged side by side up and down, the lateral guide rollers are arranged in the left-right direction, and the reinforcing bar 5 passes between the two lateral guide rollers.

Referring to fig. 1, the left and right roller straightening mechanism 33 in the embodiment of the present invention includes a right row of fixed vertical straightening wheels (a plurality of fixed vertical straightening wheels are arranged side by side in the front-back direction) and a left row of movable vertical straightening wheels (a plurality of movable vertical straightening wheels are arranged side by side in the front-back direction), the fixed vertical straightening wheels are arranged on the rack in the vertical direction, the movable vertical straightening wheels are arranged vertically and can be adjusted in the left-right direction (for example, the plurality of movable vertical straightening wheels are arranged on the same adjusting block which can be adjusted in the left-right direction), the fixed vertical straightening wheels and the movable vertical straightening wheels are arranged on the same horizontal plane, the fixed vertical straightening wheels and the movable vertical straightening wheels are arranged in a staggered manner, the reinforcing steel bars 5 pass through the fixed vertical straightening wheels and the movable vertical straightening wheels, and the number of the fixed vertical straightening wheels and the movable vertical straightening wheels is greater than three.

Referring to fig. 1, the upper and lower roller straightening mechanism 34 according to the embodiment of the present invention includes a lower row of horizontal straightening wheels (a plurality of fixed horizontal straightening wheels are arranged side by side in the front-rear direction) and an upper row of movable horizontal straightening wheels (a plurality of movable horizontal straightening wheels are arranged side by side in the front-rear direction), the fixed horizontal straightening wheels are arranged on the frame in the left-right direction, the movable horizontal straightening wheels (e.g., each movable horizontal straightening wheel is arranged on an adjusting block capable of adjusting the position in the up-down direction) are arranged in the left-right direction and are arranged on the frame in the up-down direction, the fixed horizontal straightening wheels and the movable horizontal straightening wheels are located on the same vertical surface in the front-rear direction, the reinforcing steel bars 5 pass through between the fixed horizontal straightening wheels and the movable horizontal straightening wheels, and the number of the fixed horizontal straightening wheels and the movable horizontal straightening wheels is greater than two.

The guide wheel traction mechanism 42 in the embodiment of the present invention is located right above the middle between the two second traction holes 43, and includes two guide wheels arranged side by side up and down, the guide wheels are arranged in the left-right direction, and the reinforcing steel bars 5 pass between the two guide wheels.

In this embodiment, the fixed vertical straightening wheel, the movable vertical straightening wheel, the fixed transverse straightening wheel, the movable transverse straightening wheel and the guide wheel are all grooved wheels (a ring groove matched with the steel bar 5 is arranged on the circumferential surface).

In the present embodiment, "first", "second", "third", "fourth", and "fifth" only have a distinguishing function, and have no other special meaning.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The reinforcing steel bar feeding device for the production of the reinforcing steel bar truss comprises a rack and five reinforcing steel bar unreeling structures (1) which are arranged on the left side of the rack in parallel front and back; the steel bar unwinding device is characterized by further comprising five vertical guide rollers (2) vertically arranged on the rack, five steel bar guide structures (3) arranged on the right side of the rack side by side from front to back and a steel bar positioning structure (4) on the rack, wherein one vertical guide roller (2) is arranged on the right front of each steel bar unwinding structure (1), one steel bar guide structure (3) is correspondingly arranged on the right side of each steel bar unwinding structure (1), the steel bar guide structures (3) are arranged on the right back of the corresponding vertical guide rollers (2), and the steel bar positioning structure (4) is arranged right behind the rearmost steel bar guide structure (3);

the steel bar guiding structure (3) comprises a rectangular four-hole traction plate (31) arranged on the rack in the left-right direction, a pair roller guiding mechanism (32), a left-right roller straightening mechanism (33) and an upper-lower roller straightening mechanism (34) which are arranged on the rack in parallel in the front-back direction on the left side of the rectangular four-hole traction plate (31), and four first traction holes (35) are arranged on the rectangular four-hole traction plate (31) in a rectangular manner;

the steel bar positioning structure (4) comprises a row-shaped four-hole traction plate (41) arranged on the rack in the left-right direction and a guide wheel traction mechanism (42) arranged on the rack and positioned right above the middle part of the row-shaped four-hole traction plate (41), and four second traction holes (43) are arranged on the row-shaped four-hole traction plate (41) in parallel in the left-right direction;

reinforcing bar (5) are unreeled structure (1) by the reinforcing bar and are wound out, bypass the front side that corresponds vertical guide roller (2), in proper order through corresponding pair roller guide mechanism (32), control gyro wheel mechanism (33) and upper and lower gyro wheel mechanism (34) of flare-outing about, to first traction hole (35) or reinforcing bar location structure (4) of reinforcing bar guide structure (3) at rear again, export by second traction hole (43) or guide pulley drive mechanism (42) of reinforcing bar location structure (4) at last.

2. The reinforcing bar feeding device for reinforcing bar truss production according to claim 1, wherein the reinforcing bar (5) outputted from the last reinforcing bar unwinding structure (1) is inputted into the second drawing hole (43) at the leftmost end, and the reinforcing bars (5) outputted from the remaining four reinforcing bar unwinding structures (1) are respectively inputted into the guide wheel drawing mechanism (42) and the remaining three second drawing holes (43).

3. The steel bar feeding device for steel bar truss production according to claim 2, wherein five steel bar guiding structures (3) are a first steel bar guiding structure, a second steel bar guiding structure, a third steel bar guiding structure, a fourth steel bar guiding structure and a fifth steel bar guiding structure from front to back, the first steel bar guiding structure is not provided with a rectangular four-hole traction plate (31), and the second steel bar guiding structure, the third steel bar guiding structure, the fourth steel bar guiding structure and the fifth steel bar guiding structure are respectively provided with a first rectangular four-hole traction plate (411), a second rectangular four-hole traction plate (412), a third rectangular four-hole traction plate (413) and a fourth rectangular four-hole traction plate (414);

the five reinforcing steel bar unreeling structures (1) are a first large reinforcing steel bar unreeling structure, a second large reinforcing steel bar unreeling structure, a first small reinforcing steel bar unreeling structure, a second small reinforcing steel bar unreeling structure and a third large reinforcing steel bar unreeling structure from front to back, and respectively output a first large reinforcing steel bar (51), a second large reinforcing steel bar (52), a first small reinforcing steel bar (53), a second small reinforcing steel bar (54) and a third large reinforcing steel bar (55);

a first large steel bar (51) is arranged in a first traction hole (35) on the lower right side of the first rectangular four-hole traction plate (411); a second large steel bar (52) is arranged in a first traction hole (35) at the lower right side of the second rectangular four-hole traction plate (412), and a first large steel bar (51) is arranged in a first traction hole (35) at the upper right side of the second rectangular four-hole traction plate; a second large steel bar (52) is arranged in a first traction hole (35) on the lower right side of the third rectangular four-hole traction plate (413), a first large steel bar (51) is arranged in the first traction hole (35) on the upper right side of the third rectangular four-hole traction plate, and a first small steel bar (53) is arranged in the first traction hole (35) on the lower left side of the third rectangular four-hole traction plate; a second large steel bar (52) is arranged in a first traction hole (35) on the lower right side of the fourth rectangular four-hole traction plate (414), a first small steel bar (53) is arranged in the first traction hole (35) on the upper right side of the fourth rectangular four-hole traction plate, a second small steel bar (54) is arranged in the first traction hole (35) on the lower left side of the fourth rectangular four-hole traction plate, and a first large steel bar (51) is arranged in the first traction hole (35) on the upper left side of the fourth rectangular four-hole traction plate; the four second traction holes (43) are sequentially provided with a second large steel bar (52), a second small steel bar (54), a first small steel bar (53) and a third large steel bar (55) from right to left, and the guide wheel traction mechanism (42) is internally provided with a first large steel bar (51).

4. A reinforcing bar feeding device for reinforcing bar truss production according to claim 1, wherein the pair of roller guide mechanisms (32) comprises two lateral guide rollers arranged side by side up and down, the lateral guide rollers are arranged in the left-right direction, and the reinforcing bar (5) passes between the two lateral guide rollers.

5. The steel bar feeding device for steel bar truss production according to claim 1, wherein the left and right roller straightening mechanisms (33) comprise a row of right vertical straightening wheels and a row of left movable vertical straightening wheels, the fixed vertical straightening wheels are vertically arranged on the rack, the movable vertical straightening wheels are vertically arranged and can be arranged on the rack in a left-right direction in an adjustable manner, the fixed vertical straightening wheels and the movable vertical straightening wheels are positioned on the same horizontal plane, the fixed vertical straightening wheels and the movable vertical straightening wheels are arranged in a staggered manner, the steel bars (5) pass through the fixed vertical straightening wheels and the movable vertical straightening wheels, and the number of the fixed vertical straightening wheels and the number of the movable vertical straightening wheels are more than three.

6. The steel bar feeding device for steel bar truss production according to claim 1, wherein the upper and lower roller straightening mechanisms (34) comprise a lower row of transverse straightening wheels and an upper row of movable transverse straightening wheels, the fixed transverse straightening wheels are arranged on the frame in the left-right direction, the movable transverse straightening wheels are arranged in the left-right direction and can be adjusted up and down on the frame, the fixed transverse straightening wheels and the movable transverse straightening wheels are positioned on the same front-back vertical surface, the steel bars (5) pass between the fixed transverse straightening wheels and the movable transverse straightening wheels, and the number of the fixed transverse straightening wheels and the movable transverse straightening wheels is more than two.

7. The reinforcing bar feeding device for reinforcing bar truss production according to claim 1, wherein the guide wheel traction mechanism (42) is located right above between the two second traction holes (43) in the middle and comprises two guide wheels arranged side by side up and down, the guide wheels are arranged in the left-right direction, and the reinforcing bars (5) pass between the two guide wheels.

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