CN220005777U - Reinforcing steel bar correcting device - Google Patents

Abstract

The disclosure relates to a reinforcing steel bar correction device, which comprises a base, a first clamping plate, a second clamping plate, a first driving structure, a second driving structure and a correction structure; the first clamping plate and the second clamping plate are oppositely arranged, the first clamping plate is relatively fixed with the base, and the first driving structure can drive the second clamping plate to move towards a direction close to or far away from the first clamping plate so as to clamp a vertical section of the reinforcing steel bar to be corrected in a clamping cavity defined by the first clamping plate, the second clamping plate and the base; the second driving structure is arranged on one surface of the first clamping plate, which is away from the clamping cavity, one end of the correcting structure is connected with the second driving structure, and the other end of the correcting structure is provided with a propping top wall; the second driving structure is used for driving the propping top wall to move towards the direction close to the central axis of the vertical section so that the bending section is coaxial with the vertical section, labor cost is saved, and working efficiency is improved.

Description

Reinforcing steel bar correcting device

Technical Field

The disclosure relates to the technical field of building construction, in particular to a reinforcing steel bar correcting device.

Background

The steel bar refers to steel materials for reinforced concrete and prestressed reinforced concrete, and the cross section of the steel material is round. In the building construction process, the usage amount of the reinforcing steel bars is large. Bending situations can not be avoided in the process of warehousing or carrying the reinforcing steel bars, and when the reinforcing steel bars are used, correction devices are usually required to be used for correcting bending parts of the reinforcing steel bars.

One structure reservation connection reinforcing steel bar correcting device in the publication number CN 217749109U comprises a supporting piece and a reinforcing steel bar correcting piece which is detachably connected with the supporting piece; the reinforcing steel bar correcting piece comprises a vertical rod, a first buckle and a handle, wherein the first buckle is arranged along the length direction of the vertical rod and on the same side, the handle is arranged on one side, far away from the first buckle, of the vertical rod, and the handle is positioned between the first buckles of the two groups.

However, in the prior art disclosed above, when the reinforcing bar correction device is used to correct the reinforcing bar, it is necessary to manually hold the handle of the reinforcing bar correction device to apply force so that the bending portion of the reinforcing bar is deformed from the bent state to the vertical state, thereby correcting the bending portion of the reinforcing bar, which is high in labor cost and low in working efficiency. And when the position of the bending part on the reinforcing steel bar is high, the risk of manual holding operation is high.

Disclosure of Invention

In order to solve the above technical problems or at least partially solve the above technical problems, the present disclosure provides a reinforcing bar correcting apparatus.

The disclosure provides a reinforcing steel bar correction device, which comprises a base, a first clamping plate, a second clamping plate, a first driving structure, a second driving structure and a correction structure;

the first clamping plate and the second clamping plate are oppositely arranged and are positioned on the same side of the base, the first clamping plate and the base are relatively fixed, the first driving structure is arranged on the base and used for driving the second clamping plate to move towards a direction close to or far away from the first clamping plate so as to clamp a vertical section of the reinforcing steel bar to be rectified in a clamping cavity defined by the first clamping plate, the second clamping plate and the base together;

the second driving structure is arranged on one surface of the first clamping plate, which is far away from the clamping cavity, one end of the correcting structure is fixedly connected with an output shaft of the second driving structure, and the other end of the correcting structure is provided with a propping top wall for propping against a bending section of the steel bar to be corrected; the second driving structure is used for driving the propping wall to move towards the direction close to the central axis of the vertical section so as to prop the bending section towards the direction close to the central axis of the vertical section, and the bending section is coaxial with the vertical section.

Optionally, the first driving structure comprises a first driving motor, a screw rod and a connecting sleeve;

the first driving motor is connected to the base, the screw rod is connected to an output shaft of the first driving motor and is arranged between the base and the second clamping plate along the thickness direction of the second clamping plate, the connecting sleeve is sleeved on the outer wall of the screw rod and is in threaded connection with the screw rod, and the second clamping plate is connected to the connecting sleeve;

the first driving motor is used for driving the screw rod to rotate so as to drive the second clamping plate to move towards the direction close to or far away from the first clamping plate.

Optionally, a containing groove is formed in the base, and the screw rod is located in the containing groove.

Optionally, a guide structure is disposed between the base and the second clamping plate.

Optionally, the guide structure includes a sliding groove provided on one of the base and the second clamping plate and a slider provided on the other of the base and the second clamping plate.

Optionally, the second driving structure includes a driving assembly and a connecting shaft;

the driving assembly is fixed on one face, deviating from the clamping cavity, of the first clamping plate, a supporting seat is further arranged on one face, deviating from the clamping cavity, of the first clamping plate, the connecting shaft rotates to penetrate through the supporting seat, one end of the connecting shaft is fixed on an output shaft of the driving assembly, and the other end of the connecting shaft is fixed with the correcting structure.

Optionally, the driving assembly includes a second driving motor and a decelerator;

the output shaft of the second driving motor is connected with the input end of the speed reducer, and one end of the connecting shaft is fixed at the output end of the speed reducer.

Optionally, the correcting structure comprises a connecting rod and a correcting wheel;

one end of the connecting rod is fixed on the output shaft of the second driving structure, the correcting wheel is rotationally connected to the other end of the connecting rod, and the outer wall of the correcting wheel is formed into the propping wall.

Optionally, a protective layer is arranged on the outer wall of the correcting wheel, and the protective layer comprises a rubber layer.

Optionally, a limit switch is disposed on a surface of the first clamping plate facing away from the clamping cavity, and the limit switch is located in a vertical projection area of the correction structure on the first clamping plate;

the limit switch is electrically connected with the second driving structure, and when the correction structure abuts against the limit switch, the limit switch is used for controlling the second driving structure to stop working so as to relieve the abutting force of the abutting wall on the bending section.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

the utility model provides a reinforcing bar orthotic devices through set up first grip block, second grip block and first drive structure on the base, and first grip block and second grip block are located the homonymy of base and set up relatively, and wherein, first grip block is fixed with the base relatively, and the second grip block can be moved towards the direction that is close to or keeps away from first grip block under first drive structure's effect to with the vertical section centre gripping of waiting to correct the reinforcing bar in the centre gripping intracavity that defines between first grip block and second grip block. And through setting up the second drive structure on the one side that deviates from the centre gripping chamber of first grip block, connect the correction structure on the output shaft of second drive structure, the other end of correction structure has the roof that is used for supporting the section of buckling of waiting to correct the reinforcing bar, and the second drive structure is used for driving the roof and moves towards the direction of the axis that is close to vertical section, in order to support the direction of the axis that is close to vertical section with the section of buckling, that is to say, under the effect of second drive structure, the roof can drive the section of buckling and move towards the direction of the axis that is close to vertical section, make the section of buckling coaxial with vertical section, the axis of buckling and the axis of vertical section are located same straight line, thereby with the section of buckling of waiting to correct straight, when using like this, fix the reinforcing bar correction device on waiting to correct the vertical section of reinforcing bar through first grip block and second grip block, the roof that the second drive correction structure supports the direction of the axis that is close to vertical section of buckling removes, just can correct the section straight, the manual work cost has been saved, work efficiency has been improved. In addition, because need not the manual work and hold, so the reinforcing bar orthotic devices of this disclosure do not receive the position restriction of bending segment, and the suitability is better, and the operational safety is higher.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments of the present disclosure or the solutions in the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is an isometric view of a reinforcing bar orthotic device according to an embodiment of the present disclosure;

fig. 2 is a front view of a reinforcing bar orthotic device according to an embodiment of the present disclosure;

fig. 3 is a use state diagram of a reinforcing bar to be corrected by the reinforcing bar correction device according to the embodiment of the present disclosure;

fig. 4 is a use state diagram of the reinforcing steel bar correction device according to the embodiment of the present disclosure after correcting the reinforcing steel bar to be corrected;

fig. 5 is a schematic structural view of a second clamping plate and a connecting sleeve of the reinforcing steel bar correcting apparatus according to the embodiment of the disclosure.

1, a base; 11. a receiving groove; 12. a support base; 21. a first clamping plate; 22. a second clamping plate; 3. a first driving structure; 31. a first driving motor; 32. a screw rod; 33. connecting sleeves; 4. a second driving structure; 41. a second driving motor; 42. a speed reducer; 43. a connecting shaft; 5. correcting the structure; 51. a connecting rod; 52. a correction wheel; 6. a clamping cavity; 71. a chute; 72. a slide block; 81. a protective layer; 82. a limit switch; 9. reinforcing steel bars to be corrected; 91. a vertical section; 92. bending sections.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, a further description of aspects of the present disclosure will be provided below. It should be noted that, without conflict, the embodiments of the present disclosure and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced otherwise than as described herein; it will be apparent that the embodiments in the specification are only some, but not all, embodiments of the disclosure.

Referring to fig. 1 to 5, the present embodiment provides a reinforcing bar correcting device, which includes a base 1, a first clamping plate 21, a second clamping plate 22, a first driving structure 3, a second driving structure 4, and a correcting structure 5.

Specifically, as shown in fig. 1 to 4, the first clamping plate 21 and the second clamping plate 22 are oppositely disposed and located on the same side of the base 1, the first clamping plate 21 is relatively fixed to the base 1, and the first driving structure 3 is disposed on the base 1 and is used for driving the second clamping plate 22 to move toward a direction approaching or separating from the first clamping plate 21 so as to clamp the vertical section 91 of the reinforcing steel bar 9 to be corrected in the clamping cavity 6 defined by the first clamping plate 21, the second clamping plate 22 and the base 1 together.

That is, a first clamping plate 21 and a second clamping plate 22 are opposite to each other on one surface of the base 1, wherein the first clamping plate 21 is fixed on the base 1, the second clamping plate 22 is movably connected on the base 1, and the first clamping plate 21, the second clamping plate 22 and the base 1 together define a clamping cavity 6 for clamping the vertical section 91 of the reinforcing steel bar 9 to be corrected.

At the same time, the second clamping plate 22 can move towards a direction away from the first clamping plate 21 under the action of the first driving structure 3, so that the clamping cavity 6 is opened, and the vertical section 91 with the correction reinforcing steel bars is conveniently placed in the clamping cavity 6. After the vertical section 91 is placed in place in the clamping cavity 6, for example, when the outer wall of the vertical section 91 abuts against both the base 1 and the first clamping plate 21, the first driving structure 3 drives the second clamping plate 22 to move towards the direction close to the first clamping plate 21 until the second clamping plate 22 abuts against the outer wall of the vertical section 91, so that the vertical section 91 is clamped and fixed in the clamping cavity 6, the vertical section 91 is conveniently placed in or removed from the clamping cavity 6, the clamping is stable, and the bent section 92 of the correction reinforcing steel bar is conveniently corrected.

In addition, the second clamping plate 22 moves towards the direction close to or far away from the first clamping plate 21 under the action of the first driving structure 3, so that the size of the clamping cavity 6 can be adjusted, namely, the size of the clamping cavity 6 can be flexibly adjusted, the reinforcing steel bar correcting device of the embodiment can correct reinforcing steel bars with different sizes, and the applicability is improved.

In some implementations, a protective anti-slip layer, such as a rubber pad, may be disposed on a surface of the first clamping plate 21 facing the clamping cavity 6, so that the clamping cavity 6 is more stable to clamp the reinforcing steel bar 9 to be corrected, and a phenomenon that the reinforcing steel bar 9 to be corrected is scratched by extrusion may be avoided. Of course, the same arrangement can be made on the side of the second clamping plate 22 facing the clamping chamber 6.

In some implementations, the first clamping plate 21 may be integrally formed with the base 1, for example.

Specifically, referring to fig. 1, the second driving structure 4 is disposed on a side of the first clamping plate 21 facing away from the clamping cavity 6, one end of the correcting structure 5 is fixedly connected with an output shaft of the second driving structure 4, and the other end of the correcting structure 5 has a top supporting wall for supporting against a bending section 92 of the reinforcing steel bar 9 to be corrected. The second driving structure 4 is used for driving the propping wall to move towards the direction close to the central axis of the vertical section 91 so as to prop the bending section 92 towards the direction close to the central axis of the vertical section 91, so that the bending section 92 is coaxial with the vertical section 91.

When the vertical section 91 of the reinforcing steel bar 9 to be corrected is clamped in the clamping cavity 6 in specific use, the bending section 92 of the reinforcing steel bar 9 to be corrected is positioned outside the clamping cavity 6 and is arranged close to the clamping cavity 6. Such as the junction of the vertical section 91 and the bent section 92, is located at the outer edge of one side of the holding chamber 6.

The second driving structure 4 is started, the second driving structure 4 drives the correcting structure 5 to rotate, the propping top wall of the correcting structure 5 moves towards the direction close to the central axis of the vertical section 91, the propping top wall pushes the bending section 92 against the direction close to the central axis of the vertical section 91 in the moving process, the central axis of the bending section 92 and the central axis of the vertical section 91 are positioned on the same straight line, namely, the two are coaxially arranged, so that the bending section 92 is corrected, the correction of the reinforcing steel bar 9 to be corrected is realized, the operation is convenient, the force application is not required to be manually held, the labor cost is saved, the working efficiency is improved, the using position is flexible, the applicability is good, and the operation is safer.

According to the reinforcing steel bar correcting device provided by the embodiment, the first clamping plate 21, the second clamping plate 22 and the first driving structure 3 are arranged on the base 1, the first clamping plate 21 and the second clamping plate 22 are located on the same side of the base 1 and are oppositely arranged, the first clamping plate 21 and the base 1 are relatively fixed, and the second clamping plate 22 can move towards the direction close to or far away from the first clamping plate 21 under the action of the first driving structure 3 so as to clamp the vertical section 91 of the reinforcing steel bar 9 to be corrected in the clamping cavity 6 defined between the first clamping plate 21 and the second clamping plate 22. And through setting up second drive structure 4 on the one side that deviates from centre gripping chamber 6 of first grip block 21, connect correction structure 5 on the output shaft of second drive structure 4, correction structure 5's the other end has the butt roof that is used for supporting the bending section 92 of waiting to correct reinforcing bar 9, and second drive structure 4 is used for the drive butt roof to move towards the direction that is close to the axis of vertical section 91, in order to support the bending section 92 towards the direction that is close to the axis of vertical section 91, that is to say, under the effect of second drive structure 4, the butt roof can drive bending section 92 to move towards the direction that is close to the axis of vertical section 91, make bending section 92 coaxial with vertical section 91, the axis of bending section 92 and the axis of vertical section 91 are located same straight line, thereby correct straight bending section 92 with waiting to correct reinforcing bar 9, when using like this, when fixing reinforcing bar orthotic devices on the vertical section 91 waiting to correct reinforcing bar 9 through first grip block 21 and second grip block 22, the butt roof of rethread second drive correction structure 4 can drive bending section 92 towards the direction that is close to the axis of vertical section 91, the manual work efficiency is directly need to be straightened, the work has been saved, the application of force has been improved. In addition, since manual holding is not required, the reinforcing steel bar correcting device of the embodiment is not limited by the position of the bending section 92, and has better applicability and higher operation safety.

In some embodiments, referring to fig. 2 to 4, the first driving structure 3 includes a first driving motor 31, a screw 32, and a connection sleeve 33. The first driving motor 31 is connected to the base 1, the screw rod 32 is connected to an output shaft of the first driving motor 31, and is arranged between the base 1 and the second clamping plate 22 along a thickness direction of the second clamping plate 22, namely, a vertical direction between the first clamping plate 21 and the second clamping plate 22, the connecting sleeve 33 is sleeved on an outer wall of the screw rod 32 and is in threaded connection with the screw rod 32, and the second clamping plate 22 is connected to the connecting sleeve 33; the first driving motor 31 is used for driving the screw rod 32 to rotate so as to drive the second clamping plate 22 to move towards the direction approaching or away from the first clamping plate 21.

When the screw rod 32 is particularly used, the first driving motor 31 drives the screw rod 32 to rotate, and the screw rod 32 is in threaded connection with the connecting sleeve 33, so that the rotary motion of the screw rod 32 can be converted into linear displacement of the connecting sleeve 33 along the axial direction of the screw rod 32, and the first driving motor 31 can drive the connecting sleeve 33 to reciprocate along the axial direction of the screw rod 32.

And because the second clamping plate 22 is fixedly connected to the connecting sleeve 33, when the connecting sleeve 33 moves along the axial direction of the screw rod 32, the second clamping plate 22 can be driven to reciprocate along the axial direction of the screw rod 32, so that the vertical sections 91 of the reinforcing steel bars 9 to be corrected with different sizes can be conveniently clamped and fixed in the clamping cavity 6, and the clamping device is convenient to operate and stable in clamping.

In some embodiments, referring to fig. 2 to 3, the base 1 is provided with a receiving groove 11, and the screw 32 is located in the receiving groove 11.

The accommodating groove 11 is formed in the base 1, one face, facing the accommodating groove 11, of the accommodating groove 11 is opened, the screw rod 32 is arranged in the accommodating groove 11, on one hand, the accommodating groove 11 has a protective effect on the screw rod 32, and the phenomenon that the screw rod 32 is damaged or the use is affected due to the fact that foreign matters are wound on external threads on the surface of the screw rod 32 can be avoided to a certain extent, so that the second clamping plate 22 moves smoothly. On the other hand, referring to fig. 1, the second clamping plate 22 can be made closer to the base 1, and the appearance is better.

In some embodiments, as shown with reference to fig. 2 to 5, a guide structure is provided between the base 1 and the second clamping plate 22.

Through setting up guide structure between base 1 and second grip block 22, guide structure has the guide effect to the removal of second grip block 22, has avoided second grip block 22 to take place the slope in the direction that is close to or keeps away from first grip block 21 to remove for second grip block 22 can be smooth and easy steady removal more, is convenient for the centre gripping treat vertical section 91 of correction reinforcing bar 9, helps improving the removal efficiency of second grip block 22, and then improves the clamping efficiency to vertical section 91.

In some implementations, referring to fig. 2-5, the guide structure includes a chute 71 provided on the base 1 and a slider 72 provided on the second clamping plate 22, the slider 72 moving along the chute 71 when the second clamping plate 22 moves.

The guide structure is arranged to be the sliding groove 71 and the sliding block 72 which are matched with each other, so that the structure is simple and the manufacturing is easy. Meanwhile, the guiding effect is good, and the moving efficiency of the second clamping plate 22 can be improved.

In other implementations, the guiding structure includes a slider 72 provided on the base 1 and a chute 71 provided on the second clamping plate 22,

in particular, the sliding groove 71 may be a dovetail sliding groove, and the corresponding sliding block 72 may be a dovetail sliding block, so that the guiding effect is better, and meanwhile, the dovetail sliding block and the dovetail sliding groove are more tightly matched, are not easy to separate, and have higher structural stability.

In some embodiments, referring to fig. 1-4, the second drive structure 4 includes a drive assembly and a connecting shaft 43. The drive assembly is fixed on the one side of first grip block 21 that deviates from centre gripping chamber 6, still is provided with supporting seat 12 on the one side of first grip block 21 that deviates from centre gripping chamber 6, and connecting axle 43 rotates to wear to establish on supporting seat 12, and connecting axle 43's one end is fixed on drive assembly's output shaft, and connecting axle 43's the other end is fixed with correction structure 5, simple structure and stability.

The drive assembly can be fastened to the first clamping plate 21, for example, by means of a screw connection. The driving component drives the correcting structure 5 to rotate conveniently.

In some embodiments, referring to fig. 1, the drive assembly includes a second drive motor 41 and a decelerator 42. An output shaft of the second driving motor 41 is connected to an input end of the speed reducer 42, and one end of the connecting shaft 43 is fixed to an output end of the speed reducer 42.

The second driving motor 41 and the speed reducer 42 may be connected to the first clamping plate 21 through bolts, for example, so that the assembly and the disassembly are convenient, and the replacement is convenient.

When the correcting structure is used, the second driving motor 41 transmits power to the speed reducer 42, the speed reducer 42 converts high rotation speed of the second driving motor 41 into low rotation speed high torque power to drive the connecting shaft 43 to rotate, and the correcting structure 5 can be driven by the connecting shaft 43 to rotate around the axis of the connecting shaft 43 due to the fixed connection of the correcting structure 5 and the output end of the connecting shaft 43, so that the propped top wall propped bending section 92 is driven to move towards the direction close to the central axis of the vertical section 91 to correct the propped top wall propped bending section.

In some embodiments, referring to fig. 1 to 4, the correcting structure 5 includes a connecting rod 51 and a correcting wheel 52, one end of the connecting rod 51 is fixed on the output shaft of the second driving structure 4, the correcting wheel 52 is rotatably connected to the other end of the connecting rod 51, and an outer wall of the correcting wheel 52 is formed to abut against the top wall.

That is, one end of the connecting rod 51 is fixed to the connecting shaft 43 at the output end of the decelerator 42, and the other end of the connecting rod 51 is rotatably connected to the correcting wheel 52. When in use, the second driving motor 41 drives the connecting shaft 43 to rotate through the speed reducer 42, and the rotation of the connecting shaft 43 drives the connecting rod 51 to rotate, so that the correcting wheel 52 is propped against the bending section 92. Because the correcting wheel 52 is rotationally connected to the connecting rod 51, the correcting wheel 52 can extrude the bending section 92 to move towards the direction close to the central axis of the vertical section 91 in the rotating process, so that the correcting wheel is convenient to operate, time-saving and labor-saving, and high in working efficiency.

In some embodiments, as shown with reference to fig. 2, a protective layer 81 is provided on the outer wall of the orthotic wheel 52, the protective layer 81 comprising a rubber layer.

The protective layer 81 is arranged on the outer wall of the correcting wheel 52, so that the damage to the reinforcing steel bars 9 to be corrected caused by the correcting wheel 52 in the process of extruding the bending section 92 can be avoided, and the use safety is high.

In some embodiments, referring to fig. 1 to 4, a limit switch 82 is disposed on a side of the first clamping plate 21 facing away from the clamping cavity 6, and the limit switch 82 is located in a vertical projection area of the correction structure 5 on the first clamping plate 21; the limit switch 82 is electrically connected with the second driving structure 4, and when the correction structure 5 abuts against the limit switch 82, the limit switch 82 is used for controlling the second driving structure 4 to stop working so as to release the abutting force of the abutting wall on the bending section 92.

Specifically, the limit switch 82 is located in a vertical projection area of the connection rod 51 on the first clamping plate 21, and extends toward the connection rod 51.

The limit switch 82 is electrically connected to the second driving motor 41. When the bending section 92 of the reinforcing steel bar 9 to be corrected is corrected, as shown in fig. 4, when the correction wheel 52 abuts against the bending section 92 and moves towards the direction close to the central axis of the vertical section 91 until the section is coaxial with the vertical section 91, the connecting rod 51 abuts against the pressing limit switch 82, and the limit switch 82 controls the second driving motor 41 to stop working, so that the connecting rod 51 stops rotating, the abutting wheel does not abut against the bending section 92 any more, the correction operation of the bending section 92 is automatically stopped, the occurrence of reverse bending caused by excessive correction is avoided, and the correction efficiency is further improved.

Through setting up limit switch 82 to limit switch 82 and second driving motor 41 and connecting rod 51 mutually support, thereby when buckling section 92 rectifies to coaxial with vertical section 91, the spliced pole presses limit switch 82, limit switch 82 makes second driving motor 41 outage stop work after being pressed, thereby correct round 52 stop rotation, with stop extrusion buckling section 92, make the reinforcing bar orthotic devices of this disclosure accomplish the correction work to buckling section 92 voluntarily, do not need manual monitoring, save the cost of labor, can avoid buckling section 92 to be excessively corrected simultaneously, correction efficiency is higher.

It should be noted that in this document, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is merely a specific embodiment of the disclosure to enable one skilled in the art to understand or practice the disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown and described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The reinforcing steel bar correction device is characterized by comprising a base (1), a first clamping plate (21), a second clamping plate (22), a first driving structure (3), a second driving structure (4) and a correction structure (5);

the first clamping plate (21) and the second clamping plate (22) are oppositely arranged and are positioned on the same side of the base (1), the first clamping plate (21) and the base (1) are relatively fixed, the first driving structure (3) is arranged on the base (1) and used for driving the second clamping plate (22) to move towards a direction approaching to or away from the first clamping plate (21) so as to clamp a vertical section (91) of a steel bar (9) to be rectified in a clamping cavity (6) defined by the first clamping plate (21), the second clamping plate (22) and the base (1) together;

the second driving structure (4) is arranged on one surface of the first clamping plate (21) which is far away from the clamping cavity (6), one end of the correcting structure (5) is fixedly connected with an output shaft of the second driving structure (4), and the other end of the correcting structure (5) is provided with a propping wall for propping against a bending section (92) of the steel bar (9) to be corrected; the second driving structure (4) is used for driving the propping wall to move towards the direction close to the central axis of the vertical section (91) so as to prop the bending section (92) towards the direction close to the central axis of the vertical section (91), and the bending section (92) is coaxial with the vertical section (91).

2. The reinforcing bar orthotic device according to claim 1, wherein the first drive structure (3) comprises a first drive motor (31), a screw (32) and a connecting sleeve (33);

the first driving motor (31) is connected to the base (1), the screw rod (32) is connected to an output shaft of the first driving motor (31) and is arranged between the base (1) and the second clamping plate (22) along the thickness direction of the second clamping plate (22), the connecting sleeve (33) is sleeved on the outer wall of the screw rod (32) and is in threaded connection with the screw rod (32), and the second clamping plate (22) is connected to the connecting sleeve (33);

the first driving motor (31) is used for driving the screw rod (32) to rotate so as to drive the second clamping plate (22) to move towards a direction approaching or separating from the first clamping plate (21).

3. The reinforcing steel bar correcting device according to claim 2, wherein the base (1) is provided with a containing groove (11), and the screw rod (32) is positioned in the containing groove (11).

4. The reinforcing bar orthotic device according to claim 1, characterized in that a guiding structure is provided between the base (1) and the second clamping plate (22).

5. The reinforcing bar orthotic device according to claim 4, wherein the guide structure comprises a runner (71) provided on one of the base (1) and the second clamp plate (22) and a slider (72) provided on the other of the base (1) and the second clamp plate (22).

6. The reinforcing bar orthotic device according to claim 1, wherein the second drive structure (4) comprises a drive assembly and a connecting shaft (43);

the driving assembly is fixed on one face, deviating from the clamping cavity (6), of the first clamping plate (21), a supporting seat (12) is further arranged on one face, deviating from the clamping cavity (6), of the first clamping plate (21), the connecting shaft (43) is rotatably arranged on the supporting seat (12) in a penetrating mode, one end of the connecting shaft (43) is fixed on an output shaft of the driving assembly, and the other end of the connecting shaft (43) is fixed with the correcting structure (5).

7. The reinforcing bar orthotic device of claim 6, wherein the drive assembly includes a second drive motor (41) and a decelerator (42);

an output shaft of the second driving motor (41) is connected with an input end of the speed reducer (42), and one end of the connecting shaft (43) is fixed at an output end of the speed reducer (42).

8. The reinforcing bar orthotic device according to claim 1, characterized in that said orthotic structure (5) comprises a connecting rod (51) and an orthotic wheel (52);

one end of the connecting rod (51) is fixed on an output shaft of the second driving structure (4), the correcting wheel (52) is rotatably connected to the other end of the connecting rod (51), and the outer wall of the correcting wheel (52) is formed into the propping wall.

9. The reinforcing bar orthotic device according to claim 8, characterized in that a protective layer (81) is provided on the outer wall of the orthotic wheel (52), the protective layer (81) comprising a rubber layer.

10. The reinforcing bar orthotic device according to any one of claims 1 to 8, characterized in that a limit switch (82) is provided on a face of the first clamping plate (21) facing away from the clamping cavity (6), the limit switch (82) being located in a vertical projection area of the orthotic structure (5) on the first clamping plate (21);

the limit switch (82) is electrically connected with the second driving structure (4), when the correction structure (5) abuts against the limit switch (82), the limit switch (82) is used for controlling the second driving structure (4) to stop working so as to relieve the abutting force of the abutting wall on the bending section (92).