CN209753863U - reinforcing bar processing design mould - Google Patents

Abstract

The utility model belongs to the technical field of mechanical equipment technique and specifically relates to a reinforcing bar processing design mould. The automatic feeding device comprises a rack, a feeding assembly, a pressing assembly, a bending assembly and a cutter assembly; the bending assembly comprises a first support, a first bending wheel, a second bending wheel, a first transmission cylinder, a second transmission cylinder, a first bending motor and a second bending motor. The embodiment of the utility model drives the reinforcing steel bars to be bent through the machine, so that the processing of the reinforcing steel bar frame is more convenient; the machine is used for replacing manual operation, so that the problems of different sizes and low accuracy of the steel bar frames caused by manual operation are solved; meanwhile, the reinforcing steel bars are driven by a machine to be transmitted and bent, so that the labor burden of workers is reduced; in addition, the reinforcing bar has fewer manual operation parts in the bending process, so that workers can be familiar with and use the machine conveniently.

Description

Reinforcing bar processing design mould

Technical Field

The utility model belongs to the technical field of mechanical equipment technique and specifically relates to a reinforcing bar processing design mould.

background

with the increasing demand for structural strength of various buildings, the design strength provided by the steel bar framework has been regarded as important for the structural design in the engineering industry, during the design and practical use of the steel bar framework, the straight steel bars are usually required to be made into a square frame structure, and the steel bars are usually bent manually to obtain the steel bar frame. However, manual operation often causes the dimension of the frame body to be inconsistent, and the stress of the combined steel reinforcement framework is uneven, which easily causes the building to be unstable and the structural design to have errors; meanwhile, manual operation is adopted, and the whole quality of the steel bar is large, so that fatigue is easily generated after long-time operation, and the production efficiency is reduced.

therefore, a reinforcing steel bar processing and shaping mold convenient to operate is needed.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art existence, the utility model aims to provide a reinforcing bar processing design mould.

in order to achieve the above purpose, the utility model adopts the following technical scheme:

A reinforcing steel bar processing and shaping mold comprises a rack, a discharging component, a pressing component, a bending component and a cutter component, wherein the discharging component is arranged at the left end of the rack and used for conveying reinforcing steel bars, the pressing component is arranged on the rack and located on the right side of the discharging component, the pressing component is used for converting bent reinforcing steel bars into straight reinforcing steel bars, the bending component is arranged on the rack and located on the right side of the pressing component, the bending component is used for converting straight reinforcing steel bars into reinforcing steel bar frames, and the cutter component is arranged on the bending component and used for cutting off the reinforcing steel bars;

The bending assembly comprises a first support, a first bending wheel, a second bending wheel, a first transmission cylinder, a second transmission cylinder, a first bending motor and a second bending motor, and a guide hole for conveying the reinforcing steel bars into the first support from the pressing assembly is formed in the left end of the first support from left to right along the horizontal direction; the first bending wheel and the second bending wheel are respectively arranged in the first support and distributed left and right, and are vertically arranged and located at the same height;

a first limiting column is formed by extending the center of the front surface of the first bending wheel forwards along the direction of the central axis of the first bending wheel, a first bending column is formed by extending the center of the front surface of the first bending wheel forwards at the position deviated to the outside along the direction of the axis of the first bending wheel, and a second limiting column and a second bending column are respectively formed by extending the front surface of the second bending wheel forwards at the same positions with the first bending wheel;

The first bending motor is in transmission connection with the center of the first bending wheel, the first bending motor is used for driving the first bending wheel to rotate by taking the central axis of the first limiting column as a shaft, the second bending motor is in transmission connection with the center of the second bending wheel, and the second bending motor is used for driving the second bending wheel to rotate by taking the central axis of the second limiting column as a shaft;

the first transmission cylinder is arranged on the first support and used for driving the second bending motor to move in the front-back direction, and the second transmission cylinder is arranged on the first support and used for driving the second bending motor to move in the left-right direction;

the cutter assembly is arranged on the first support and is located within the outline range of the first support.

preferably, the bending assembly further comprises a first slide rail, a second slide rail, a third slide rail, a first slide block and a second slide block;

the first sliding rail is horizontally arranged on the upper surface of the rack along the front-back direction and is positioned in the outline range of the first rack;

The second sliding rail is arranged on the upper surface of the rack and is arranged on the right side of the first sliding rail in an aligning way, and the second sliding rail is parallel to the first sliding rail;

The first sliding block is connected above the first sliding rail and the second sliding rail in a sliding manner;

The third sliding rail is horizontally arranged on the upper surface of the first sliding block along the left-right direction;

The second sliding block is connected above the third sliding rail in a sliding manner;

The first transmission cylinder is in transmission connection with the first sliding block and is used for driving the first sliding block to move;

The second bending motor is fixedly arranged on the second sliding block, and the second transmission cylinder is in transmission connection with the second sliding block and is used for driving the second sliding block to move.

preferably, the bending assembly further comprises a supporting seat, the supporting seat is fixedly arranged on the frame and located within the outline range of the first support, and the first bending motor is fixedly arranged on the supporting seat.

preferably, the cutter assembly comprises a cutter arranged in the outline range of the first support and positioned on the left side of the first bending wheel, and a driving cylinder fixed on the first support and used for driving the cutter to move along the vertical direction, wherein the cutter is vertically arranged, and the cutter point is distributed downwards.

preferably, the pressing assembly comprises a second support, a first transmission roller wheel, a second transmission roller wheel, a first fixing seat, a second fixing seat and a pressing cylinder, the second support is fixedly arranged on the right side of the rack and located on the discharging assembly, the pressing cylinder is fixedly arranged at the upper end of the second support, the first transmission roller wheel is connected with the lower end of the first fixing seat in a shaft mode, the upper end of the first fixing seat is connected with a movable shaft of the pressing cylinder in a transmission mode, the second transmission roller wheel is aligned to the lower portion of the first transmission roller wheel, a second transmission roller wheel rotating shaft is connected to the second fixing seat, the second fixing seat is fixedly arranged at the lower end of the second support, and the first transmission roller wheel, the second transmission roller wheel, the first fixing seat, the second fixing seat and the pressing cylinder are at least set to be one group.

Preferably, the pressing assembly further comprises a transmission motor for driving the second transmission roller to rotate and a second supporting seat for supporting the transmission motor, the transmission motor is arranged on the rear side of the second support and is in transmission connection with the center of the second transmission roller, the second supporting seat is fixedly arranged on the rack, and the transmission motor is fixedly arranged on the second supporting seat.

Preferably, the blowing subassembly includes blowing running roller and blowing motor, the blowing running roller setting is in the left side upper end of frame, the vertical setting of blowing running roller, the cavity has been seted up in the frame, the blowing motor setting is in the cavity and the transmission shaft of blowing motor passes the cavity and is connected with the transmission of blowing running roller, the blowing motor is used for driving the blowing running roller and uses the central axis of blowing running roller to rotate as the axle, the ring week is provided with the reinforcing bar on the lateral wall of blowing running roller.

Due to the adoption of the scheme, the embodiment of the utility model drives the reinforcing steel bars to be bent through the machine, so that the processing of the reinforcing steel bar frame is more convenient; the machine is used for replacing manual operation, so that the problems of different sizes and low accuracy of the steel bar frames caused by manual operation are solved; meanwhile, the reinforcing steel bars are driven by a machine to be transmitted and bent, so that the labor burden of workers is reduced; in addition, the reinforcing bar has fewer manual operation parts in the bending process, so that workers can be familiar with and use the machine conveniently.

Drawings

Fig. 1 is a usage state diagram of an embodiment of the present invention;

Fig. 2 is a usage state diagram of the embodiment of the present invention;

Fig. 3 is a usage state diagram of the embodiment of the present invention;

fig. 4 is a usage state diagram of the embodiment of the present invention;

Fig. 5 is a schematic structural view of a bending assembly according to an embodiment of the present invention;

Fig. 6 is a top view of a bending assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a pressing assembly according to an embodiment of the present invention;

fig. 8 is a schematic cross-sectional view of a pressing assembly according to an embodiment of the present invention;

10. A frame; 20. a discharging component; 21. a discharging roller; 22. a discharging motor; 30. a pressing assembly; 31. a second bracket; 32. a first drive roller; 33. a second drive roller; 34. a first fixed seat; 35. a second fixed seat; 36. a pressing cylinder; 37. a drive motor; 38. a second support seat; 40. a bending assembly; 41. a first bracket; 421. a first bending wheel; 422. a second bending wheel; 4211. a first limit post; 4212. a first bending column; 4221. a second limit post; 4222. a second bending column; 431. a first drive cylinder; 432. a second drive cylinder; 441. a first bending motor; 442. a second bending motor; 451. a first slide rail; 452. a second slide rail; 453. a third slide rail; 461. a first slider; 462. a second slider; 463. a first support base; 50. a cutter assembly; 51. a cutter; 52. a driving cylinder; a. a cavity; b. a guide hole; A. and (7) reinforcing steel bars.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 8, an embodiment of the present invention provides a reinforcing bar processing and shaping mold, which includes a frame 10, a material placing assembly 20, a pressing assembly 30, a bending assembly 40, and a cutter assembly 50; the discharging assembly 20 is arranged at the left end of the rack 10 and used for conveying the reinforcing steel bar A, the pressing assembly 30 is arranged on the rack 10 and located at the right side of the discharging assembly 20, the pressing assembly 30 is used for converting the bent reinforcing steel bar A into the straight reinforcing steel bar A, the bending assembly 40 is arranged on the rack 10 and located at the right side of the pressing assembly 30, the bending assembly 40 is used for converting the straight reinforcing steel bar A into a reinforcing steel bar frame, and the cutter assembly 50 is arranged on the bending assembly 40 and used for cutting off the reinforcing steel bar A; the bending assembly 40 includes a first bracket 41, a first bending wheel 421, a second bending wheel 422, a first transmission cylinder 431, a second transmission cylinder 432, a first bending motor 441 and a second bending motor 442; the left end of the first support 41 is provided with a guide hole b along the horizontal direction from left to right for the reinforcing steel bar a to be transmitted into the first support 41 from the pressing component 30, and the first bending wheel 421 and the second bending wheel 422 are respectively arranged in the first support 41 and distributed left and right; the first bending wheel 421 and the second bending wheel 422 are vertically arranged and located at the same height (the vertical arrangement of the first bending wheel 421 and the second bending wheel 422 means that the central axes of the first bending wheel 421 and the second bending wheel 422 are horizontally arranged along the front-back direction, and the same height of the first bending wheel 421 and the second bending wheel 422 means that the central axis of the first bending wheel is located at the same height), the center of the front surface of the first bending wheel 421 extends forwards along the central axis direction of the first bending wheel 421 to form a first limiting column 4211, the outward offset position of the center of the front surface of the first bending wheel 421 extends forwards along the axial direction of the first bending wheel 421 to form a first bending column 4212, and the same positions of the front surface of the second bending wheel 422 and the first bending wheel 421 extend forwards to form a second limiting column 4221 and a second bending column 4222 respectively; the first bending motor 441 is in transmission connection with the center of the first bending wheel 421, the first bending motor 441 is used for driving the first bending wheel 421 to rotate by taking the central axis of the first limiting column 4211 as a shaft, the second bending motor 442 is in transmission connection with the center of the second bending wheel 422, and the second bending motor 442 is used for driving the second bending wheel 422 to rotate by taking the central axis of the second limiting column 4221 as a shaft; the first bending motor 441 is fixed on the frame 10, the first transmission cylinder 431 is disposed on the first bracket 41 for driving the second bending motor 442 to move in the front-back direction, and the second transmission cylinder 432 is disposed on the first bracket 41 for driving the second bending motor 442 to move in the left-right direction; further, the cutter assembly 50 is disposed on the first bracket 41 within the outline of the first bracket 41.

based on the above structure, in the reinforcing steel bar processing and shaping mold provided in this embodiment, the feeding module 20 drives the reinforcing steel bar a to move, when the reinforcing steel bar a moves to the pressing module 30, the pressing module 30 generates a pressing effect on the reinforcing steel bar a to convert the bent reinforcing steel bar a into the straight reinforcing steel bar a, the reinforcing steel bar a continues to move, the reinforcing steel bar a is located between the first limiting column 4211 and the first bending column 4212 during passing through the first bending wheel 421, and is located between the second limiting column 4221 and the second bending column 4222 during passing through the second bending wheel 422 until the front end of the reinforcing steel bar a moves to a specified position (where a sensor may be disposed on the first support 41 to confirm the moving distance of the reinforcing steel bar a). At this time, the second bending motor 442 is used to drive the second bending wheel 422 to rotate clockwise, the second bending column 4222 and the second limiting column 4221 are used to jointly extrude the reinforcing steel bar a to form a bending structure at the right end thereof, and the second bending motor 442 is used to drive the second bending wheel 422 to rotate counterclockwise and drive the second bending column 4222 to return to the original position; the second transmission cylinder 432 is used for driving the second bending motor 442 to move leftwards until the second bending motor 442 moves to a specified position, the second bending motor 442 is used for driving the second bending wheel 422 to rotate 90 degrees clockwise, the second bending column 4222 and the second limiting column 4221 are used for jointly extruding the reinforcing steel bar A to enable the right end of the reinforcing steel bar A to form a bending structure, the second bending motor 442 is used for driving the second bending wheel 422 to rotate anticlockwise and driving the bending column to return to the original position, and the steps are circulated and then carried out; then, the second transmission cylinder 432 drives the second bending motor 442 to move leftward until the second bending motor 442 moves to a specified position, the first transmission cylinder 431 drives the second bending motor 442 to move forward slightly (to prevent the bending structure at the right end of the reinforcing steel bar a from touching the first bending wheel 421 and eliminate the influence of the first bending wheel 421 on the current bending process), the second bending motor 442 drives the second bending wheel 422 to rotate clockwise by 90 degrees, the second bending column 4222 and the second limiting column 4221 together extrude the reinforcing steel bar a to form a bending structure at the right end thereof, and the second bending motor 442 drives the second bending wheel 422 to rotate counterclockwise and drives the bending column to return to the original position; the driving cylinder 52 is used for driving the cutting knife 51 to move downwards to cut the steel bar a, the first bending motor 441 is used for driving the first bending wheel 421 to rotate clockwise, so that the left end of the steel bar a forms a bent structure, and the steel bar a is converted into a steel bar frame used in engineering construction. Therefore, the reinforcing steel bar A is driven by a machine to be bent, so that the processing of the reinforcing steel bar frame is more convenient; the machine is used for replacing manual operation, so that the problems of different sizes and low accuracy of the steel bar frames caused by manual operation are solved; meanwhile, the reinforcing steel bar A is driven by a machine to be transmitted and bent, so that the labor burden of workers is reduced; in addition, the reinforcing steel bar A has fewer manual operation parts in the bending process, so that the worker can be familiar with and use the machine conveniently.

In order to ensure that the first bending motor 441 can always drive the first bending wheel 421 to rotate, the bending assembly 40 of this embodiment further includes a first slide rail 451, a second slide rail 452, a third slide rail 453, a first slide block 461, and a second slide block 462; the first slide rail 451 is horizontally arranged on the upper surface of the frame 10 along the front-back direction and is located within the outline of the first bracket 41; the second slide rail 452 is disposed on the upper surface of the frame 10 and aligned to the right of the first slide rail 451, and the second slide rail 452 is parallel to the first slide rail 451; the first sliding block 461 is slidably connected above the first sliding rail 451 and the second sliding rail 452, and the first transmission cylinder 431 is in transmission connection with the first sliding block 461 and is used for driving the first sliding block 461 to move in the front-back direction; the third slide rail 453 is horizontally disposed on the upper surface of the first slider 461 in the left-right direction, and the second slider 462 is slidably connected to the third slide rail 453 and moves in the left-right direction; the second bending motor 442 is fixedly disposed on the second sliding block 462, and the second driving cylinder 432 is connected to the second sliding block 462 in a driving manner and is used for driving the second sliding block 462 to move in the left-right direction. Based on the above structure, when the second bending motor 442 needs to move in the left-right direction, the second driving cylinder 432 is in driving connection with the second sliding block 462 to drive the second sliding block 462 to move in the left-right direction on the third slide rail 453, so as to drive the second bending motor 442 fixedly arranged on the second sliding block 462 to move in the left-right direction; when the second bending motor 442 needs to move in the front-back direction, the first sliding block 461 is driven to move in the front-back direction on the first sliding rail 451 and the second sliding rail 452 by the driving connection relationship between the first driving cylinder 431 and the first sliding block 461, so that the second sliding block 462 arranged on the first sliding block 461 and the second bending motor 442 are driven to move in the front-back direction as a whole, and the second bending motor 442 can move in the front-back direction.

To ensure that the first bending motor 441 keeps stable during the rotation of the first bending wheel 421, as a preferred solution, the bending assembly 40 of this embodiment further includes a first supporting seat 463, the first supporting seat 463 is fixedly disposed on the frame 10 and located within the outline of the first bracket 41, and the first bending motor 441 is fixedly disposed on the first supporting seat 463.

in order to ensure the using effect of the cutter assembly 50, as a preferable scheme, the cutter assembly 50 of the present embodiment includes a cutter 51 disposed within the contour range of the first support 41 and located on the left side of the first bending wheel 421, and a driving cylinder 52 fixed on the first support 41 and used for driving the cutter 51 to move in the vertical direction, wherein the cutter 51 is disposed vertically and the tip of the cutter is distributed downward.

In order to facilitate bending the reinforcing steel bar a, the pressing assembly 30 of this embodiment includes a second bracket 31, a first transmission roller 32, a second transmission roller 33, a first fixing seat 34, a second fixing seat 35, and a pressing cylinder 36, the second bracket 31 is fixedly disposed on the frame 10 and located at the right side of the discharging assembly 20, the pressing cylinder 36 is fixedly disposed at the upper end of the second bracket 31, the first transmission roller 32 is pivotally connected to the lower end of the first fixing seat 34, the upper end of the first fixing seat 34 is in transmission connection with the movable shaft of the pressing cylinder 36, the second transmission roller 33 is disposed below the first transmission roller 32 in an aligned manner, the second transmission roller 33 is pivotally connected to the second fixing seat 35, the second fixing seat 35 is fixedly disposed at the lower end of the second bracket 31, wherein the first transmission roller 32, the second transmission roller 33, the first fixing seat 34, the second fixing seat 35 and the pressing cylinder 36 are at least arranged as a group. Based on the above structure, the steel bar a is conveyed from the discharging assembly 20 to the pressing assembly 30 and is positioned between the first driving roller 32 and the second driving roller 33, the steel bar a restrains the bent steel bar a between the first driving roller 32 and the second driving roller 33 during the conveying process, and the pressing cylinder 36 drives the first driving roller 32 to press down, so that the bent steel bar a is converted into a straight steel bar a, and the bending operation of the steel bar a is facilitated.

In order to facilitate the transmission of the reinforcing steel bar a, the pressing assembly 30 of this embodiment further includes a transmission motor 37 for driving the second transmission roller 33 to rotate and a second supporting seat 38 for supporting the transmission motor 37, the transmission motor 37 is disposed at the rear side of the second frame 31 and is in transmission connection with the center of the second transmission roller 33, the second supporting seat 38 is fixedly disposed on the frame, and the transmission motor 37 is fixedly disposed on the second supporting seat 38. Based on the above structure, the transmission motor 37 is used to drive the second transmission roller 33 to rotate, and the reinforcing steel bar a is pushed to be transmitted towards the right side by means of the friction force between the second transmission roller 33 and the reinforcing steel bar a during the rotation process, so that the transmission efficiency of the reinforcing steel bar a is improved.

In order to reduce the labor intensity of workers, the discharging assembly 20 of the embodiment includes a discharging roller 21 and a discharging motor 22, the discharging roller 21 is disposed at the upper end of the left side of the rack 10, the discharging roller 21 is disposed vertically (which means that the central axis of the discharging roller 21 is disposed vertically), a cavity a is formed in the rack 10, the discharging motor 22 is disposed in the cavity a, a transmission shaft of the discharging motor 22 penetrates through the cavity a to be in transmission connection with the discharging roller 21, the discharging motor 22 is used for driving the discharging roller 21 to rotate by taking the central axis of the discharging roller 21 as a shaft, and reinforcing steel bars a are disposed around the side wall of the discharging roller 21. Based on above structure, through setting up blowing motor 22 and blowing running roller 21, utilize blowing running roller 21 can once only place the blowing running roller 21 with the reinforcing bar A of lapping on, utilize blowing motor 22 drive blowing running roller 21 to rotate and continuously drive reinforcing bar A transmission, avoided the artifical problem that needs to last the work, alleviateed artifical intensity of labour.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (7)

1. The utility model provides a reinforcing bar processing design mould which characterized in that: the steel bar frame comprises a rack, a feeding component, a pressing component, a bending component and a cutter component, wherein the feeding component is arranged at the left end of the rack and used for conveying steel bars, the pressing component is arranged on the rack and located on the right side of the feeding component, the pressing component is used for converting bent steel bars into straight steel bars, the bending component is arranged on the rack and located on the right side of the pressing component, the bending component is used for converting straight steel bars into steel bar frames, and the cutter component is arranged on the bending component and used for cutting off the steel bars;

The bending assembly comprises a first support, a first bending wheel, a second bending wheel, a first transmission cylinder, a second transmission cylinder, a first bending motor and a second bending motor, and a guide hole for conveying the reinforcing steel bars into the first support from the pressing assembly is formed in the left end of the first support from left to right along the horizontal direction; the first bending wheel and the second bending wheel are respectively arranged in the first support and distributed left and right, and are vertically arranged and located at the same height;

A first limiting column is formed by extending the center of the front surface of the first bending wheel forwards along the direction of the central axis of the first bending wheel, a first bending column is formed by extending the center of the front surface of the first bending wheel forwards at the position deviated to the outside along the direction of the axis of the first bending wheel, and a second limiting column and a second bending column are respectively formed by extending the front surface of the second bending wheel forwards at the same positions with the first bending wheel;

The first bending motor is in transmission connection with the center of the first bending wheel, the first bending motor is used for driving the first bending wheel to rotate by taking the central axis of the first limiting column as a shaft, the second bending motor is in transmission connection with the center of the second bending wheel, and the second bending motor is used for driving the second bending wheel to rotate by taking the central axis of the second limiting column as a shaft;

the first transmission cylinder is arranged on the first support and used for driving the second bending motor to move in the front-back direction, and the second transmission cylinder is arranged on the first support and used for driving the second bending motor to move in the left-right direction;

The cutter assembly is arranged on the first support and is located within the outline range of the first support.

2. the reinforcing steel bar processing and shaping mold of claim 1, wherein: the bending component also comprises a first slide rail, a second slide rail, a third slide rail, a first sliding block and a second sliding block;

the first sliding rail is horizontally arranged on the upper surface of the rack along the front-back direction and is positioned in the outline range of the first rack;

the second sliding rail is arranged on the upper surface of the rack and is arranged on the right side of the first sliding rail in an aligning way, and the second sliding rail is parallel to the first sliding rail;

The first sliding block is connected above the first sliding rail and the second sliding rail in a sliding manner;

the third sliding rail is horizontally arranged on the upper surface of the first sliding block along the left-right direction;

the second sliding block is connected above the third sliding rail in a sliding manner;

the first transmission cylinder is in transmission connection with the first sliding block and is used for driving the first sliding block to move;

The second bending motor is fixedly arranged on the second sliding block, and the second transmission cylinder is in transmission connection with the second sliding block and is used for driving the second sliding block to move.

3. the reinforcing steel bar processing and shaping mold of claim 1, wherein: the bending assembly further comprises a supporting seat, the supporting seat is fixedly arranged on the rack and located within the outline range of the first support, and the first bending motor is fixedly arranged on the supporting seat.

4. the reinforcing steel bar processing and shaping mold of claim 1, wherein: the cutter assembly comprises a cutter arranged in the outline range of the first support and positioned on the left side of the first bending wheel, a driving cylinder fixed on the first support and used for driving the cutter to move along the vertical direction, and the cutter is vertically arranged and the cutter point is distributed downwards.

5. A reinforcing bar processing and sizing die as claimed in claim 1, wherein: the utility model discloses a blowing subassembly, including the blowing subassembly, press the subassembly to press the subassembly, press the subassembly to include second support, first drive running roller, second drive running roller, first fixing base, second fixing base and press the cylinder, the second support is fixed to be set up in the frame and is located the right side of blowing subassembly, press the fixed upper end that sets up at the second support of cylinder, first drive running roller pivot is connected at the lower extreme of first fixing base, the upper end of first fixing base is connected with the loose axle transmission of pressing the cylinder, second drive running roller is counterpointed and is set up the below at first drive running roller, second drive running roller pivot is connected in the second fixing base, the fixed lower extreme that sets up at the second support of second fixing base, first drive running roller, second drive running roller, first fixing base, second fixing base and press the cylinder to set up at least for a set of one.

6. The reinforcing steel bar processing and shaping mold of claim 5, wherein: the pressing assembly further comprises a second supporting seat used for driving a second transmission roller wheel to rotate and used for supporting the transmission motor, the transmission motor is arranged on the rear side of the second support and is in transmission connection with the center of the second transmission roller wheel, the second supporting seat is fixedly arranged on the rack, and the transmission motor is fixedly arranged on the second supporting seat.

7. a reinforcing bar processing and sizing die as claimed in claim 1, wherein: the blowing subassembly includes blowing running roller and blowing motor, the blowing running roller setting is in the left side upper end of frame, the vertical setting of blowing running roller, the cavity has been seted up in the frame, the blowing motor setting is passed the cavity and is connected with the transmission of blowing running roller in the cavity and the transmission shaft of blowing motor, the blowing motor is used for driving the blowing running roller and uses the central axis of blowing running roller to rotate as the axle, the ring week is provided with the reinforcing bar on the lateral wall of blowing running roller.