CN221215651U - Production equipment for steel backs - Google Patents

Abstract

The application relates to the technical field of steel back processing, and particularly discloses steel back production equipment which comprises a stacking mechanism and a plurality of finishing mechanisms which are sequentially arranged, wherein a transmission mechanism for transmitting the steel back is arranged between the stacking mechanism and the finishing mechanisms and between the adjacent finishing mechanisms, the transmission mechanism comprises a conveying belt and an adsorption assembly which is lifted and glidingly arranged on the conveying belt, the lifting direction of the adsorption assembly is perpendicular to the output plane of the conveying belt, and the sliding direction of the adsorption assembly is consistent with the transmission direction of the conveying belt. Starting the conveyor belt, transporting the steel back along the output direction of the conveyor belt, and enabling the steel back to be close to the next finishing mechanism; the adsorption component is controlled to ascend and slide, and the steel back can be sent into the finishing mechanism; after finishing the finishing mechanism once; the application reduces the transportation of workers to the steel backs and integrally improves the problem of high labor intensity of the workers.

Description

Production equipment for steel backs

Technical Field

The application relates to the technical field of steel back processing, in particular to production equipment for a steel back.

Background

In the production and processing process of the steel back, deburring and connecting lines are often required after the steel back is punched and finished.

The common steel backing is finished and then the burring line is required to be placed into a turnover basket, then the steel backing with the burring to be removed is rotated to deburring equipment in a manual transfer mode, and then the burring equipment is used for sequentially deburring the steel backing.

For the related technology, the steel back is made of steel, and when the steel back is transported manually, the labor intensity of workers is high.

Disclosure of utility model

In order to solve the problem of high labor intensity of workers, the application provides production equipment for steel backs.

The application provides a steel back production device which adopts the following technical scheme:

the utility model provides a production facility of steel backing, includes the sign indicating number material mechanism and a plurality of finishing mechanism that lay in proper order, sign indicating number material mechanism with between the finishing mechanism, adjacent be provided with the transport mechanism who is used for transmitting the steel backing between the finishing mechanism, transport mechanism includes the conveyer belt and goes up and down and slide the adsorption component of installing on the conveyer belt, the lifting direction of adsorption component with the output plane of conveyer belt is mutually perpendicular, the slip direction of adsorption component with the direction of transmission of conveyer belt is unanimous.

By adopting the technical scheme, firstly, the material stacking mechanism is started, the steel back to be processed can be fed onto the conveyor belt, the conveyor belt is started, and then the steel back is conveyed into the next working procedure through the conveyor belt; then controlling the adsorption assembly to slide and enable the adsorption assembly to be aligned with the steel back, and then controlling the adsorption assembly to descend so that the adsorption assembly can adsorb the steel back; the adsorption component is controlled to ascend and slide, and the steel back can be sent into the finishing mechanism; after finishing the machining of the finishing mechanism once, controlling the adsorption assembly to send the steel back on the finishing mechanism to the next conveyor belt, so that the finishing machining of the next working procedure of the steel back is facilitated; reduces the transportation of workers to the steel backs, and integrally improves the problem of higher labor intensity of the workers.

Optionally, the transmission mechanism includes the mounting bracket, the conveyer belt is installed on the mounting bracket, the lift is installed on the mounting bracket and is removed the arm, remove the length direction of arm with the direction of transmission of conveyer belt is unanimous, remove the lift direction of arm with the direction of transmission of conveyer belt is mutually perpendicular, adsorb the subassembly along remove the length direction slidable mounting of arm remove on the arm.

Through adopting above-mentioned technical scheme, can drive the lift of adsorption component when removing the arm and go up and down, when adsorption component slides along the length direction of removing the arm, can send the steel backing of absorption to finish on the mechanism, also can adsorb the steel backing after the processing on the finish mechanism and send into next transport mechanism.

Optionally, the absorption subassembly includes push rod and absorption spare, the push rod with remove the arm looks vertically, just the push rod is followed remove the length direction slidable mounting of arm is in remove on the arm, the absorption spare is located the push rod is close to one side of conveyer belt, be equipped with on the push rod and be used for driving the drive piece that the push rod slided.

Through adopting above-mentioned technical scheme, control driving piece drives the push rod and slides, can drive the push rod and slide, push rod and removal arm cooperate, have increased the movable range of the absorption piece on the push rod, can fix a position the absorption piece on the push rod to the absorption of absorption piece on the push rod to the steel backing has been ensured, thereby the absorption piece of guarantee can be stable send into on the finishing mechanism with the steel backing, also ensured that the absorption piece sends into next transport mechanism with the steel backing on the finishing mechanism.

Optionally, the adsorption piece is followed the length direction of push rod is equipped with two in proper order.

By adopting the technical scheme, one adsorption piece can adsorb the steel back to be processed, and the other adsorption piece can adsorb the steel back processed on the finishing mechanism; when the push rod sends the steel back to be processed into the finishing mechanism, the steel back processed in the finishing mechanism can be sent to the next transmission mechanism together, and the transportation efficiency of the steel back is improved.

Optionally, the conveying structure further comprises a turnover assembly for turning over the steel back on the conveying belt.

Through adopting above-mentioned technical scheme, turn over the steel backing through the upset subassembly, make things convenient for carrying out finish machining to the two sides of steel backing in proper order in the operator.

Optionally, the conveyer belt includes a plurality of conveyer bars, and a plurality of conveyer bars are parallel to each other, and two adjacent have the clearance between the conveyer bar, the upset subassembly includes axis of rotation, upset pole and is used for driving axis of rotation pivoted rotating member, the axis of rotation perpendicular to the direction of transmission of conveyer belt, just the axis of rotation with the transmission face of conveyer belt is parallel, the upset pole with the axis of rotation links to each other, the upset pole in the opposite both sides of axis of rotation, along the length direction of axis of rotation is provided with a plurality ofly, the upset pole with conveyer bar staggered arrangement is located have the clearance that is used for holding the steel backing between two upset poles of the opposite both sides of axis of rotation.

By adopting the technical scheme, the plurality of conveying strips are matched, so that the steel back can be stably supported, and the falling of the steel back from the conveying belt is reduced; firstly, rotating a rotating shaft, enabling the overturning rods to be parallel to the transmission surface of the conveyor belt, and enabling the steel back to enter a gap between two overturning rods positioned at two sides of the rotating shaft when the steel back moves along with the conveyor belt; then, the rotating piece is started to drive the rotating shaft to rotate, and when the overturning rod rotates to be parallel to the transmission surface of the conveyor belt, the steel back is abutted against the conveyor belt, so that overturning of the steel back is realized; the transfer bar can reduce interference with the flipping bar.

Optionally, a guide plate is disposed at one side of the length direction of the conveyor belt, and a distance between the guide plate and the conveyor belt gradually decreases along the conveying direction of the conveyor belt.

By adopting the technical scheme, the steel back falling onto the guide plate can slide onto the conveyor belt.

Optionally, one side of the conveyer belt that keeps away from the deflector is provided with the board that accepts that is used for accepting the steel backing, transport mechanism is including being used for carrying out neat arrangement subassembly to the steel backing on the board that accepts.

Through adopting above-mentioned technical scheme, after the steel backing falls to the joint board from the conveyer belt, arrange in order and fix a position the steel backing through the arrangement, reduced the scattering of steel backing, make things convenient for when adsorbing the subassembly with steel backing transportation to finish on the mechanism, can reduce the arrangement work to the steel backing.

In summary, the present application includes at least one of the following beneficial technical effects:

1. Firstly, starting a material stacking mechanism, namely conveying a steel back to be processed onto a conveyor belt, starting the conveyor belt, conveying the steel back along the output direction of the conveyor belt, and enabling the steel back to be close to a next finishing mechanism; then controlling the adsorption assembly to slide and enable the adsorption assembly to be aligned with the steel back, and then controlling the adsorption assembly to descend so that the adsorption assembly can adsorb the steel back; the adsorption component is controlled to ascend and slide, and the steel back can be sent into the finishing mechanism; after finishing the machining of the finishing mechanism once, controlling the adsorption assembly to send the steel back on the finishing mechanism to the next conveyor belt, so that the finishing machining of the next working procedure of the steel back is facilitated; the transportation of workers to the steel backs is reduced, and the problem of high labor intensity of the workers is improved as a whole;

2. The control driving piece drives the push rod to slide, the push rod can be driven to slide, and the push rod is matched with the movable arm, so that the moving range of the adsorption piece on the push rod is enlarged, the adsorption piece is ensured to be capable of stably conveying the steel back to the finishing mechanism, and the adsorption piece is also ensured to convey the steel back on the finishing mechanism to the next transmission mechanism;

3. One adsorption piece can adsorb the steel back to be processed, and the other adsorption piece can adsorb the steel back processed on the finishing mechanism; when the push rod sends the steel back to be processed into the finishing mechanism, the steel back processed in the finishing mechanism can be sent to the next transmission mechanism together, and the transportation efficiency of the steel back is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic view showing a partial structure of a transmission mechanism;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

FIG. 4 is a schematic view showing a partial structure of a conveyor belt;

FIG. 5 is a schematic view of a part of the structure of the flip assembly;

Fig. 6 is an enlarged schematic view of the portion B in fig. 4.

Reference numerals: 1. a finishing mechanism; 2. a conveyor belt; 3. an adsorption assembly; 31. a push rod; 32. an absorbing member; 4. a mounting frame; 41. a guide plate; 42. a detection device; 43. a receiving plate; 431. an edge; 44. a fourth push-pull member; 45. a moving arm; 5. a flip assembly; 51. a rotating shaft; 52. a connecting rod; 53. turning over the rod; 54. a rotating member; 6. a finishing assembly; 61. a first push-pull member; 62. a push plate; 63. a second push-pull member; 64. a third push-pull member; 65. and a limiting plate.

Detailed Description

The application is described in further detail below with reference to fig. 1-6.

The embodiment of the application discloses production equipment for a steel back. Referring to fig. 1 and 2, the production facility of steel backing is including the sign indicating number material mechanism and a plurality of finishing mechanism 1 that lay in proper order, is provided with the transport mechanism who is used for transmitting the steel backing between sign indicating number material mechanism and the finishing mechanism 1, between the adjacent finishing mechanism 1, and transport mechanism includes conveyer belt 2 and goes up and down and skid the adsorption component 3 of installing on conveyer belt 2, and the lifting direction of adsorption component 3 is perpendicular with the output plane of conveyer belt 2, and the slip direction of adsorption component 3 is unanimous with the direction of transmission of conveyer belt 2. Firstly, starting a material stacking mechanism, namely conveying a steel back to be processed onto a conveyor belt 2, starting the conveyor belt 2, conveying the steel back along the output direction of the conveyor belt 2, and enabling the steel back to be close to a next finishing mechanism 1; then controlling the adsorption assembly 3 to slide and enable the adsorption assembly 3 to be aligned with the steel back, and then controlling the adsorption assembly 3 to descend so that the adsorption assembly 3 can adsorb the steel back; the adsorption component 3 is controlled to ascend and slide, and the steel back can be sent into the finishing mechanism 1; after finishing the machining of the finishing mechanism 1 once, controlling the adsorption component 3 to send the steel back on the finishing mechanism 1 to the next conveyor belt 2, so that the finishing machining of the next working procedure on the steel back is facilitated; reduces the transportation of workers to the steel backs, and integrally improves the problem of higher labor intensity of the workers.

The upper side of the conveyor belt 2 is horizontal, and the stacking mechanism can adopt an existing stacking machine, and can sequentially send steel backs to be processed onto the conveyor belt 2 by means of the stacking mechanism. The finishing mechanism 1 can be an oblique pressing mechanism, a punching mechanism, a nail pulling mechanism, a deburring mechanism and the like, and proper finishing mechanisms 1 can be sequentially selected according to the process of the steel back to be processed in production.

The connection between the plurality of finishing mechanisms 1 is parallel to the conveying direction of the conveyor belt 2. The conveyor further comprises a mounting frame 4, and the conveyor belt 2 is mounted on the mounting frame 4. The transmission direction one side of the conveyor belt 2 is provided with a guide plate 41, the guide plate 41 is connected with the mounting frame 4, and the guide plate 41 is positioned on one side of the conveyor belt 2 away from the next finishing mechanism 1, and the distance between the guide plate 41 and the conveyor belt 2 gradually decreases along the transmission direction of the conveyor belt 2. The steel backs falling onto the guide plates 41 slide in the inclined direction of the guide plates 41, reducing the impact the steel backs are subjected to.

Referring to fig. 1, 3 and 4, two detection devices 42 are sequentially arranged on the upper side of the conveyor belt 2 along the transmission direction of the conveyor belt 2, and the detection devices 42 can be light detection or sound wave detection; the detection device 42 is fixedly connected with the mounting frame 4, and the steel back on the conveyor belt 2 can be detected through the detection device 42.

Referring to fig. 4 and 5, the conveying structure further comprises a turnover assembly 5 for turning over the steel back on the conveyor belt 2, and the turnover assembly 5 turns over the steel back through the turnover assembly 5, so that the operator can finish the two sides of the steel back in sequence.

The conveyor belt 2 comprises a plurality of conveyor bars, the plurality of conveyor bars are parallel to each other, and a gap exists between two adjacent conveyor bars; the conveying strips are matched, and the steel backs can be stably supported, so that falling of the steel backs from the conveying belt 2 is reduced.

The turnover assembly 5 includes a rotation shaft 51, a connection rod 52, a turnover rod 53, and a rotation member 54 for driving the rotation shaft 51 to rotate; the rotating member 54 is a rotating motor, an output shaft of the rotating motor is perpendicular to a transmission direction of the conveyor belt 2, and the rotating shaft 51 is welded coaxially with the output shaft of the rotating member 54. The rotating shaft 51 is parallel to the conveying surface of the conveyor belt 2, the turning rods 53 are welded with the rotating shaft 51 through connecting rods 52, the connecting rods 52 are perpendicular to the rotating shaft 51 and the turning rods 53, the turning rods 53 are arranged on two opposite sides of the rotating shaft 51 along the length direction of the rotating shaft 51, the turning rods 53 are arranged in a staggered mode with the conveying strips, and a gap for accommodating a steel back is reserved between the two turning rods 53 located on two opposite sides of the rotating shaft 51.

The conveying strip can reduce interference with the turnover rods 53, firstly, the rotating shaft 51 is rotated, the turnover rods 53 are parallel to the conveying surface of the conveying belt 2, and when the steel back moves along with the conveying belt 2, the steel back can enter a gap between the two turnover rods 53 positioned at two sides of the rotating shaft 51; then, the rotating piece 54 is started to drive the rotating shaft 51 to rotate, when the turnover rod 53 rotates to be parallel to the transmission surface of the conveyor belt 2, the steel back is propped against the conveyor belt 2, turnover of the steel back is achieved, and the conveyor belt 2 can continuously drive the steel back to move along the conveyor belt 2.

Referring to fig. 4 and 6, a receiving plate 43 for receiving the steel back is arranged on one side of the conveyor belt 2 away from the guide plate 41, the receiving plate 43 is connected with the mounting frame 4, and the conveying mechanism comprises a tidying assembly 6 for tidying the steel back on the receiving plate 43; after the steel backs fall onto the bearing plate 43 from the conveyor belt 2, the steel backs are arranged and positioned through arrangement, so that the scattering of the steel backs is reduced, and the arrangement work of the steel backs can be reduced when the steel backs are transported to the finishing mechanism 1 by the adsorption assembly 3 conveniently.

The bearing plate 43 is rectangular, edges 431 are cast upwards on two adjacent sides, far away from the conveyor belt 2, of the bearing plate 43, the two edges 431 are mutually perpendicular, the arranging assembly 6 comprises a first push-pull piece 61 and a push plate 62, the first push-pull piece 61 can be an air cylinder or an electric push rod, a shell of the first push-pull piece 61 is fixedly connected with the mounting frame 4, the push plate 62 abuts against the upper side of the bearing plate 43, and the push plate 62 is connected with an output shaft of the first push-pull piece 61. The output shaft of the first push-pull member 61 is perpendicular to the transmission direction of the conveyor belt 2, and the output shaft of the first push-pull member 61 is perpendicular to one of the edges 431, and after the steel back falls onto the bearing plate 43, the first push-pull member 61 is started, so that the push plate 62 can be driven to push the steel back to be close to the edge 431 of the bearing plate 43.

The arrangement assembly 6 comprises a second push-pull member 63, a third push-pull member 64 and a limiting plate 65, the second push-pull member 63 and the second push-pull member 63 can be cylinders or electric push rods, the second push-pull member 63 and the third push-pull member 64 are located on one side, close to the conveyor belt 2, of the bearing plate 43, a shell of the second push-pull member 63 is connected with the mounting frame 4, an output shaft of the second push-pull member 63 is consistent with an output direction of the conveyor belt 2, an output shaft of the second push-pull member 63 is close to the bearing plate 43, the shell of the third push-pull member 64 is fixedly connected with the output shaft of the second push-pull member 63, the output shaft of the third push-pull member 64 is vertical, the limiting plate 65 is welded on the output shaft of the third push-pull member 64, and the limiting plate 65 is located on the upper side of the conveyor belt 2.

After the steel back falls onto the bearing plate 43, the third push-pull member 64 is controlled to shrink, and the second recommended output shaft is controlled to be close to the bearing plate 43, so that the limiting plate 65 can push the steel plate on the conveyor belt 2 onto the bearing plate 43; the limit plate 65, the push plate 62 and the edge 431 of the bearing plate 43 are matched, so that the steel back can be limited from the periphery of the steel back, and the arrangement and the positioning of the steel back are realized.

The fourth push-pull member 44 is installed on the installation frame 4, the fourth push-pull member 44 can be an air cylinder or an electric push rod, the fourth push-pull member 44 is located on the upper side of the conveyor belt 2, an output shaft of the fourth push-pull member 44 is vertically downward and is close to the conveyor belt 2, a horizontal moving arm 45 is welded on the output shaft of the fourth push-pull member 44, the length direction of the moving arm 45 is consistent with the transmission direction of the conveyor belt 2, the lifting direction of the moving arm 45 is perpendicular to the transmission direction of the conveyor belt 2, and the adsorption component 3 is slidably installed on the moving arm 45 along the length direction of the moving arm 45. The lifting of the adsorption component 3 can be driven when the movable arm 45 lifts, and the adsorption component 3 can send the adsorbed steel back to the finishing mechanism 1 when sliding along the length direction of the movable arm 45, and can adsorb the processed steel back on the finishing mechanism 1 and send the steel back to the next transmission mechanism.

Referring to fig. 3 and 5, the adsorption assembly 3 includes a push rod 31 and an adsorption member 32, the push rod 31 is perpendicular to the moving arm 45, and the push rod 31 is slidably mounted on the moving arm 45 along the length direction of the moving arm 45, the adsorption member 32 is located at one side of the push rod 31 near the conveyor belt 2, and a driving member for driving the push rod 31 to slide is provided on the push rod 31. A driving motor is mounted on the push rod 31, a rack is welded on the moving arm 45 along the length direction of the moving arm 45, a gear is coaxially welded on an output shaft of the driving motor, and the gear is meshed with the rack. The driving motor is started to rotate forward, so that the push rod 31 can be driven to slide and approach to the next adjacent finishing mechanism 1; the driving motor is controlled to rotate reversely, so that the push rod 31 can be driven to slide and move away from the next finishing mechanism 1.

The control driving piece drives the push rod 31 to slide, can drive the push rod 31 to slide, and the push rod 31 is matched with the movable arm 45, so that the moving range of the adsorption piece 32 on the push rod 31 is enlarged, the adsorption piece 32 is guaranteed to stably send the steel back to the finishing mechanism 1, and the adsorption piece 32 is also guaranteed to send the steel back on the finishing mechanism 1 to the next transmission mechanism.

The absorption part 32 is an electromagnetic absorption part 32, and the electromagnetic absorption part 32 absorbs the steel back through magnetic force, so that the steel back can be absorbed better. The adsorption pieces 32 are arranged on the lower side of the push rod 31, two adsorption pieces 32 are sequentially arranged along the length direction of the push rod 31, one adsorption piece 32 can adsorb a steel back to be processed, and the other adsorption piece 32 can adsorb the steel back processed on the finishing mechanism 1; when the push rod 31 sends the steel back to be processed into the finishing mechanism 1, the steel back processed in the finishing mechanism 1 can be sent to the next transmission mechanism together, and the transportation efficiency of the steel back is improved.

The mounting frame 4 is provided with a control panel, the conveyor belt 2, the adsorption piece 32, the detection device 42, the first push-pull piece 61, the second push-pull piece 63, the third push-pull piece 64, the fourth push-pull piece 44 and the rotating piece 54 are all electrically connected with the control panel, and an operator can conveniently control the processing of the steel back through the control panel.

The implementation principle of the production equipment of the steel back of the embodiment of the application is as follows: firstly, starting a material stacking mechanism, namely conveying a steel back to be processed onto a conveyor belt 2, starting the conveyor belt 2, conveying the steel back along the output direction of the conveyor belt 2, and enabling the steel back to be close to a next finishing mechanism 1; then controlling the adsorption assembly 3 to slide and enable the adsorption assembly 3 to be aligned with the steel back, and then controlling the adsorption assembly 3 to descend so that the adsorption assembly 3 can adsorb the steel back; the adsorption component 3 is controlled to ascend and slide, and the steel back can be sent into the finishing mechanism 1; after finishing the machining of the finishing mechanism 1 once, controlling the adsorption component 3 to send the steel back on the finishing mechanism 1 to the next conveyor belt 2, so that the finishing machining of the next working procedure on the steel back is facilitated; reduces the transportation of workers to the steel backs, and integrally improves the problem of higher labor intensity of the workers.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The terms "first," "second," "third," and the like in the description and in the claims, are not used for any order, quantity, or importance, but are used for distinguishing between different elements. The terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, is intended to mean that elements or items that are present in front of "comprising" or "comprising" are included in the word "comprising" or "comprising", and equivalents thereof, without excluding other elements or items. "upper", "lower", "left", "right", etc. are used merely to denote relative positional relationships, which may also change accordingly when the absolute position of the object to be described changes.

The foregoing are all optional embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. The production equipment of steel backing, its characterized in that: including a yard material mechanism and a plurality of finishing mechanism (1) that lay in proper order, a yard material mechanism with between finishing mechanism (1), adjacent be provided with the transport mechanism who is used for transmitting the steel backing between finishing mechanism (1), transport mechanism includes conveyer belt (2) and goes up and down and slides and install adsorption component (3) on conveyer belt (2), the direction of elevation of adsorption component (3) with the output plane of conveyer belt (2) is mutually perpendicular, the slip direction of adsorption component (3) with the direction of transmission of conveyer belt (2) is unanimous.

2. A steel back production device according to claim 1, characterized in that: the conveying mechanism comprises a mounting frame (4), the conveying belt (2) is mounted on the mounting frame (4), a movable arm (45) is mounted on the mounting frame (4) in a lifting mode, the length direction of the movable arm (45) is consistent with the conveying direction of the conveying belt (2), the lifting direction of the movable arm (45) is perpendicular to the conveying direction of the conveying belt (2), and the adsorption assembly (3) is mounted on the movable arm (45) in a sliding mode along the length direction of the movable arm (45).

3. A steel back production device according to claim 2, characterized in that: the adsorption component (3) comprises a push rod (31) and an adsorption piece (32), the push rod (31) is perpendicular to the movable arm (45), the push rod (31) is slidably mounted on the movable arm (45) along the length direction of the movable arm (45), the adsorption piece (32) is located on one side, close to the conveyor belt (2), of the push rod (31), and a driving piece for driving the push rod (31) to slide is arranged on the push rod (31).

4. A steel back production facility according to claim 3, wherein: the adsorption pieces (32) are sequentially arranged in two along the length direction of the push rod (31).

5. A steel back production device according to claim 1, characterized in that: the conveying mechanism further comprises a turnover assembly (5) for turning over the steel backs on the conveyor belt (2).

6. The steel back production equipment according to claim 5, wherein: the conveyer belt (2) include a plurality of conveyer bars, a plurality of conveyer bars are parallel to each other, and two adjacent there is the clearance between the conveyer bars, upset subassembly (5) include axis of rotation (51), upset pole (53) and be used for driving axis of rotation (51) pivoted rotating member (54), axis of rotation (51) perpendicular to the direction of transmission of conveyer belt (2), just axis of rotation (51) with the transmission face of conveyer belt (2) is parallel, upset pole (53) with axis of rotation (51) link to each other, upset pole (53) in the opposite both sides of axis of rotation (51), follow the length direction of axis of rotation (51) is provided with a plurality ofly, upset pole (53) with conveyer bar stagger arrangement is located have the clearance that is used for holding the steel back between two upset poles (53) of the opposite both sides of axis of rotation (51).

7. A steel back production device according to claim 1, characterized in that: one side of the length direction of the conveyor belt (2) is provided with a guide plate (41), and the distance between the guide plate (41) and the conveyor belt (2) is gradually reduced along the conveying direction of the conveyor belt (2).

8. A steel back production facility according to claim 7, wherein: one side of the conveyor belt (2) far away from the guide plate (41) is provided with a bearing plate (43) for bearing the steel backs, and the conveying mechanism comprises a tidying assembly (6) for tidying the steel backs on the bearing plate (43).