CN209779019U - iron wire conveying device - Google Patents

Abstract

The utility model discloses an iron wire conveyer, the conveying mounting frame of which comprises an upper side transverse plate and a lower side transverse plate, the upper side transverse plate of the mounting frame is provided with an iron wire conveying roller train, the iron wire conveying roller train comprises a left side roller shaft and a right side roller shaft, the left side roller shaft is provided with a left side iron wire conveying roller and a left side linkage gear, and the right side roller shaft is provided with a right side iron wire conveying roller and a right side linkage gear; a transmission driving servo motor is screwed on the lower surface of a transverse plate at the lower side of the mounting rack, a transmission driving gear which synchronously rotates along with the power output shaft is arranged on a power output shaft of the transmission driving servo motor, the transmission driving gear is meshed with a right side linkage gear, and the right side linkage gear is meshed with a left side linkage gear; the transverse plate on the upper side of the mounting rack is respectively provided with an iron wire guide roller group on the front end side and the rear end side of the iron wire conveying roller group. Through the structure design, the utility model has the advantages of structural design is novel, degree of automation is high, and can realize iron wire conveying operation reliably and stably.

Description

Iron wire conveying device

Technical Field

the utility model relates to an automation equipment technical field especially relates to an iron wire conveyer.

Background

In order to meet the requirement of high quality of the zipper fastener, the existing zipper fastener needs to be plated with platinum in many times. In the prior art, the platinizing processing of the zipper fastener is generally realized by adopting a platinizing mode; however, the method of water-platinum plating has the defects of poor platinum plating effect and low efficiency.

In order to overcome the defects of the water platinum plating method, the conventional water platinum plating method is gradually replaced by the electric ion platinum plating method. In the process of implementing the platinizing operation of the zipper fastener by the electric ion platinizing method, it is generally assumed that the zipper fastener is fixed by an iron wire, and it is important for the above method how to automatically and stably implement the iron wire transmission.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an iron wire conveyer, this iron wire conveyer structural design is novel, degree of automation is high, and can realize iron wire conveying operation reliably and stably.

In order to achieve the above purpose, the present invention is achieved by the following technical solutions.

A steel wire conveying device comprises a conveying mounting frame, wherein the conveying mounting frame comprises a mounting frame upper side transverse plate and a mounting frame lower side transverse plate which are horizontally and transversely arranged respectively, the mounting frame upper side transverse plate is positioned at the upper end side of the mounting frame lower side transverse plate, the mounting frame upper side transverse plate and the mounting frame lower side transverse plate are arranged at intervals, a steel wire conveying roller set is arranged on the mounting frame upper side transverse plate, the steel wire conveying roller set comprises a left roller shaft and a right roller shaft which are vertically arranged and synchronously and reversely rotate respectively, the left roller shaft is positioned at the left end side of the right roller shaft, the left roller shaft and the right roller shaft are oppositely arranged at intervals, roller shaft mounting through holes which completely penetrate up and down are respectively formed in the left roller shaft transverse plate and the right roller shaft, the upper end parts of the left roller shaft and the right roller shaft respectively penetrate through the corresponding roller shaft mounting through holes from bottom to top and, the lower ends of the left roller shaft and the right roller shaft extend to the lower end side of a transverse plate on the upper side of the mounting frame respectively;

The upper end part of the left roller shaft is sleeved with a left iron wire conveying roller, the lower end part of the left roller shaft is sleeved with a left linkage gear, and the left iron wire conveying roller and the left linkage gear respectively rotate synchronously along with the left roller shaft; the upper end part of the right roller shaft is sleeved with a right iron wire conveying roller, the lower end part of the right roller shaft is sleeved with a right linkage gear, and the right iron wire conveying roller and the right linkage gear respectively rotate synchronously along with the right roller shaft;

The lower surface of the transverse plate at the lower side of the mounting frame is provided with a transmission driving servo motor in a threaded manner, a power output shaft of the transmission driving servo motor penetrates through the transverse plate at the lower side of the mounting frame and extends to the upper end side of the transverse plate at the lower side of the mounting frame, a transmission driving gear synchronously rotating along with the power output shaft is arranged on the power output shaft of the transmission driving servo motor, the transmission driving gear is meshed with the right side linkage gear, and the right side linkage gear is meshed with the;

The transverse plate on the upper side of the mounting rack is respectively provided with an iron wire guide roller group on the front end side and the rear end side of the iron wire conveying roller group.

the iron wire guide roller group comprises at least two left side fixed mounting blocks which are uniformly arranged from front to back at intervals and are respectively screwed and fastened on the upper surface of the transverse plate on the upper side of the mounting frame, and at least two right side fixed mounting blocks which are uniformly arranged from front to back at intervals and are respectively screwed and fastened on the upper surface of the transverse plate on the upper side of the mounting frame;

A left T-shaped groove which is opened upwards and extends along the left-right direction is formed between every two adjacent left fixed installation blocks, a left T-shaped block with the cross section shape consistent with that of the left T-shaped groove is embedded in the left T-shaped groove, a left long circular hole which completely penetrates the left T-shaped block from top to bottom and extends along the left-right direction is formed in the left T-shaped groove, a left adjusting screw which is screwed with a transverse plate on the upper side of the installation frame is embedded in the left long circular hole of the left T-shaped block, a left guide roller shaft which vertically extends upwards is arranged on the left T-shaped block, and a left iron wire guide roller is sleeved at the upper end of the;

The shaping has the opening upwards and along the right side T type groove that left right direction extends between two adjacent right side fixed mounting pieces, the right side T type piece that the cross-sectional shape is unanimous with the cross-sectional shape in right side T type groove is embedded to be equipped with in the right side T type groove, the right side slotted hole that runs through completely about the right side T type piece was seted up and extends along left right direction, the right side slotted hole of right side T type piece inlays and is equipped with the right side adjusting screw with mounting bracket upside diaphragm spiro union, the right side T type piece is installed the right side guide roller axle of vertical extension up, the upper end cover of right side guide roller axle is equipped with right side iron wire guide roller.

The conveying mounting frame is characterized in that the conveying mounting frame is further provided with a mounting frame connecting vertical plate which is vertically arranged, the mounting frame connecting vertical plate is located between the mounting frame upper side transverse plate and the mounting frame lower side transverse plate, and the upper end portion and the lower end portion of the mounting frame connecting vertical plate are respectively in threaded connection with the mounting frame upper side transverse plate and the mounting frame lower side transverse plate of the corresponding side.

The upper surface of the front end part of the transverse plate on the upper side of the mounting frame is provided with an iron wire positioning seat in a threaded manner on the front end side of the iron wire guide roller set on the front side, the iron wire positioning seat is provided with an iron wire positioning hole which is completely penetrated in the front and back direction, and the front end opening of the iron wire positioning hole is in a flaring shape.

The iron wire induction mechanism comprises a left side induction mounting seat and a right side induction mounting seat which are respectively screwed on the upper surface of the upper side transverse plate of the mounting frame, the left side induction mounting seat is positioned on the left side of the right side induction mounting seat, the left side induction mounting seat and the right side induction mounting seat are oppositely arranged at intervals, a groove-shaped photoelectric switch is screwed on the upper end part of the left side induction mounting seat, a movable induction sheet is hinged on the upper end part of the right side induction mounting seat through a pivot, and an induction sheet through hole which completely penetrates through the front and the back is formed in the middle position of the movable induction sheet; when the iron wire passes through the induction sheet through hole of the movable induction sheet from front to back, the free end part of the movable induction sheet extends into the induction groove of the groove-shaped photoelectric switch; when no iron wire passes through the induction sheet through hole of the movable induction sheet from front to back, the free end part of the movable induction sheet falls down and exits from the induction groove of the groove-shaped photoelectric switch due to self gravity.

The utility model has the advantages that: the utility model relates to an iron wire conveyer, which comprises a conveying mounting frame, the conveying mounting frame comprises a mounting frame upper side transverse plate and a mounting frame lower side transverse plate which are respectively horizontally and transversely arranged, the mounting frame upper side transverse plate is positioned at the upper end side of the mounting frame lower side transverse plate, the mounting frame upper side transverse plate and the mounting frame lower side transverse plate are arranged at intervals, the mounting frame upper side transverse plate is provided with an iron wire conveying roller train, the iron wire conveying roller train comprises a left side roller shaft and a right side roller shaft which are respectively vertically arranged and synchronously and reversely rotate, the left side roller shaft is positioned at the left end side of the right side roller shaft, the left side roller shaft and the right side roller shaft are arranged right and left at intervals, the mounting frame upper side transverse plate corresponds to the left side roller shaft and the right side roller shaft and is respectively provided with roller shaft mounting through holes which are completely penetrated from top to bottom, the upper end parts of the left side roller shaft, the lower ends of the left roller shaft and the right roller shaft extend to the lower end side of a transverse plate on the upper side of the mounting frame respectively; the upper end part of the left roller shaft is sleeved with a left iron wire conveying roller, the lower end part of the left roller shaft is sleeved with a left linkage gear, and the left iron wire conveying roller and the left linkage gear respectively rotate synchronously along with the left roller shaft; the upper end part of the right roller shaft is sleeved with a right iron wire conveying roller, the lower end part of the right roller shaft is sleeved with a right linkage gear, and the right iron wire conveying roller and the right linkage gear respectively rotate synchronously along with the right roller shaft; the lower surface of the transverse plate at the lower side of the mounting frame is provided with a transmission driving servo motor in a threaded manner, a power output shaft of the transmission driving servo motor penetrates through the transverse plate at the lower side of the mounting frame and extends to the upper end side of the transverse plate at the lower side of the mounting frame, a transmission driving gear synchronously rotating along with the power output shaft is arranged on the power output shaft of the transmission driving servo motor, the transmission driving gear is meshed with the right side linkage gear, and the right side linkage gear is meshed with the; the transverse plate on the upper side of the mounting rack is respectively provided with an iron wire guide roller group on the front end side and the rear end side of the iron wire conveying roller group. Through the structure design, the utility model has the advantages of structural design is novel, degree of automation is high, and can realize iron wire conveying operation reliably and stably.

Drawings

the invention will be further described with reference to the drawings, but the embodiments in the drawings do not constitute any limitation of the invention.

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded view of fig. 1.

fig. 3 is a partially enlarged schematic view of fig. 2.

Fig. 1 to 3 include:

1-conveying mounting rack 11-mounting rack upper side transverse plate

111-roller axle mounting through hole 12-mounting frame lower side cross plate

13-mounting rack connecting vertical plate 2-iron wire conveying roller group

21-left roller axle 22-right roller axle

23-left side iron wire transmission roller 24-left side linkage gear

25-right side iron wire transmission roller 26-right side linkage gear

3-transmission driving servo motor 4-transmission driving gear

5-iron wire guide roller group 511-left side fixed mounting block

512-right side fixed mounting block 521-left side T-shaped groove

522-right side T-shaped groove 531-left side T-shaped block

5311 left oblong hole 532 right T-shaped block

5321 right slotted hole 541 left guide roller shaft

542-right guide roller shaft 551-left wire guide roller

552-right side iron wire guide roller 6-iron wire positioning seat

61-iron wire positioning hole 7-iron wire induction mechanism

71-left side induction mounting base 72-right side induction mounting base

73-groove type photoelectric switch 74-movable induction sheet

741 induction sheet through hole 100 iron wire.

Detailed Description

The present invention will be described with reference to specific embodiments.

As shown in FIGS. 1 to 3, an iron wire conveying device comprises a conveying mounting frame 1, wherein the conveying mounting frame 1 comprises a mounting frame upper side transverse plate 11 and a mounting frame lower side transverse plate 12 which are horizontally and transversely arranged respectively, the mounting frame upper side transverse plate 11 is positioned at the upper end side of the mounting frame lower side transverse plate 12, the mounting frame upper side transverse plate 11 and the mounting frame lower side transverse plate 12 are arranged at intervals, an iron wire conveying roller set 2 is arranged on the mounting frame upper side transverse plate 11, the iron wire conveying roller set 2 comprises a left side roller shaft 21 and a right side roller shaft 22 which are vertically arranged and synchronously and reversely rotate respectively, the left side roller shaft 21 is positioned at the left end side of the right side roller shaft 22, the left side roller shaft 21 and the right side roller shaft 22 are oppositely arranged at intervals, the mounting frame upper side transverse plate 11, the left side roller shaft 21 and the right side roller shaft 22 are respectively provided with roller shaft, The upper end portions of the right roller shafts 22 respectively penetrate through the corresponding roller shaft mounting through holes 111 from bottom to top and respectively extend to the upper end sides of the mounting frame upper side transverse plates 11, and the lower end portions of the left roller shafts 21 and the right roller shafts 22 respectively extend to the lower end sides of the mounting frame upper side transverse plates 11.

Wherein, the upper end of the left roller shaft 21 is sleeved with a left iron wire transmission roller 23, the lower end of the left roller shaft 21 is sleeved with a left linkage gear 24, and the left iron wire transmission roller 23 and the left linkage gear 24 respectively rotate synchronously with the left roller shaft 21; a right iron wire transmission roller 25 is sleeved at the upper end part of the right roller shaft 22, a right linkage gear 26 is sleeved at the lower end part of the right roller shaft 22, and the right iron wire transmission roller 25 and the right linkage gear 26 respectively rotate synchronously with the right roller shaft 22; the lower surface of the transverse plate 12 on the lower side of the mounting frame is provided with the transmission driving servo motor 3 in a threaded mode, a power output shaft of the transmission driving servo motor 3 penetrates through the transverse plate 12 on the lower side of the mounting frame and extends to the upper end side of the transverse plate 12 on the lower side of the mounting frame, the power output shaft of the transmission driving servo motor 3 is provided with a transmission driving gear 4 which synchronously rotates along with the power output shaft, the transmission driving gear 4 is meshed with the right side linkage gear 26, and the right side linkage gear 26 is meshed with the. It should be explained that flat key structures are respectively arranged between the left iron wire conveying roller 23 and the left roller shaft 21 and between the left linkage gear 24 and the left roller shaft 21, the left iron wire conveying roller 23 and the left roller shaft 21 are assembled and connected in a shaft hole matching manner, the left iron wire conveying roller 23 and the left roller shaft 21 are in rotation stopping connection through the flat key structures, the left linkage gear 24 and the left roller shaft 21 are also assembled and connected in a shaft hole matching manner, and the left linkage gear 24 and the left roller shaft 21 are in rotation stopping connection through the flat key structures; similarly, flat key structures are respectively arranged between the right iron wire conveying roller 25 and the right roller shaft 22 and between the right linkage gear 26 and the right roller shaft 22, the right iron wire conveying roller 25 and the right roller shaft 22 are assembled and connected in a shaft hole matching mode, the right iron wire conveying roller 25 and the right roller shaft 22 are in rotation stopping connection through the flat key structures, the right linkage gear 26 and the right roller shaft 22 are also assembled and connected in a shaft hole matching mode, and the right linkage gear 26 and the right roller shaft 22 are in rotation stopping connection through the flat key structures. In addition, a flat key structure is arranged between the transmission driving gear 4 and the power output shaft of the transmission driving servo motor 3, the transmission driving gear 4 is assembled on the power output shaft of the transmission driving servo motor 3 in a shaft hole matching mode, and rotation stopping connection is achieved between the transmission driving gear 4 and the power output shaft of the transmission driving servo motor 3 through the flat key structure.

Further, the transverse plate 11 on the upper side of the mounting rack is respectively provided with an iron wire guide roller group 5 on the front end side and the rear end side of the iron wire conveying roller group 2; the iron wire guide roller group 5 comprises at least two left fixed mounting blocks 511 which are uniformly arranged from front to back at intervals and are respectively screwed and fastened on the upper surface of the upper side transverse plate 11 of the mounting frame, and at least two right fixed mounting blocks 512 which are uniformly arranged from front to back at intervals and are respectively screwed and fastened on the upper surface of the upper side transverse plate 11 of the mounting frame; a left T-shaped groove 521 which is opened upwards and extends along the left-right direction is formed between every two adjacent left fixed mounting blocks 511, a left T-shaped block 531 with the cross section shape consistent with that of the left T-shaped groove 521 is embedded in the left T-shaped groove 521, a left long circular hole 5311 which completely penetrates up and down and extends along the left-right direction is formed in the left T-shaped block 531, a left adjusting screw which is screwed with a transverse plate 11 on the upper side of the mounting frame is embedded in the left long circular hole 5311 of the left T-shaped block 531, a left guide roller shaft 541 which vertically extends upwards is arranged on the left T-shaped block 531, and a left iron wire guide roller 551 is sleeved at the upper end of the left guide roller shaft 541; a right T-shaped groove 522 which is opened upwards and extends along the left-right direction is formed between every two adjacent right fixed mounting blocks 512, a right T-shaped block 532 with the cross section shape consistent with that of the right T-shaped groove 522 is embedded in the right T-shaped groove 522, a right long circular hole 5321 which completely penetrates up and down and extends along the left-right direction is formed in the right T-shaped block 532, a right adjusting screw which is in threaded connection with the transverse plate 11 on the upper side of the mounting frame is embedded in the right long circular hole 5321 of the right T-shaped block 532, a right guide roller shaft 542 which vertically extends upwards is arranged on the right T-shaped block 532, and a right iron wire guide roller 552 is sleeved at the upper end of the right guide roller shaft 542.

For the utility model discloses a conveying mounting bracket 1, it is still including being vertical arrangement's mounting bracket connection riser 13, and mounting bracket connection riser 13 is located between mounting bracket upside diaphragm 11 and the mounting bracket downside diaphragm 12, and mounting bracket connection riser 13's upper end, lower tip respectively with the mounting bracket upside diaphragm 11 of corresponding side, mounting bracket downside diaphragm 12 spiro union.

In addition, an iron wire positioning seat 6 is screwed on the front end side of the iron wire guide roller group 5 on the front side of the upper surface of the front end part of the transverse plate 11 on the upper side of the mounting frame, an iron wire positioning hole 61 which completely penetrates through the front and the back is formed in the iron wire positioning seat 6, and the front end opening of the iron wire positioning hole 61 is in a flaring shape.

The iron wire induction mechanism 7 is arranged between the iron wire positioning seat 6 and the front iron wire guide roller group 5 on the transverse plate 11 on the upper side of the mounting frame, the iron wire induction mechanism 7 comprises a left induction mounting seat 71 and a right induction mounting seat 72 which are respectively screwed on the upper surface of the transverse plate 11 on the upper side of the mounting frame, the left induction mounting seat 71 is positioned on the left end side of the right induction mounting seat 72, the left induction mounting seat 71 and the right induction mounting seat 72 are oppositely arranged at intervals, a groove-shaped photoelectric switch 73 is screwed at the upper end part of the left induction mounting seat 71, a movable induction sheet 74 is hinged at the upper end part of the right induction mounting seat 72 through a pivot, and an induction sheet through hole 741 which completely penetrates in the front and the back is formed in the middle position of the movable induction sheet; when the iron wire 100 passes through the sensing piece through hole 741 of the movable sensing piece 74 from front to back, the free end of the movable sensing piece 74 extends into the sensing slot of the slot-type photoelectric switch 73; when no iron wire 100 passes through the sensing piece through hole 741 of the movable sensing piece 74 from front to back, the free end of the movable sensing piece 74 falls down and exits out of the sensing slot of the slot-type photoelectric switch 73 due to its own weight.

It should be explained that, the utility model discloses be equipped with external power source electric connection's PLC controller, conveying drive servo motor 3, cell type photoelectric sensor respectively with PLC controller electric connection.

In the working process of the utility model, the worker can make the end of the iron wire 100 pass through the iron wire positioning hole 61 of the iron wire positioning seat 6, and the front end opening of the iron wire positioning hole 61 is in the flaring shape, so that the iron wire positioning hole 61 structure designed by the structure can make the worker quickly insert the end of the iron wire 100 into the iron wire positioning hole 61; the iron wire 100 passing through the iron wire positioning hole 61 of the iron wire positioning seat 6 passes through the induction sheet through hole 741 of the movable induction sheet 74, and sequentially passes through the iron wire guide roller set 5 on the front side, the iron wire conveying roller set 2 and the iron wire guide roller set 5 on the rear side from front to rear. In the process of realizing the transmission of the iron wire 100 from front to back, as the iron wire 100 passes through the induction sheet through hole 741 of the movable induction sheet 74 from front to back, at this time, the free end of the movable induction sheet 74 extends into the induction groove of the groove-shaped photoelectric switch 73, the groove-shaped photoelectric switch 73 obtains a signal and feeds the signal back to the PLC controller, the PLC controller controls the transmission driving servo motor 3 to start, the power output shaft of the transmission driving servo motor 3 drives the transmission driving gear 4 to rotate, the rotating transmission driving gear 4 drives the right-side linkage gear 26 to rotate, as the left-side linkage gear 24 is meshed with the right-side linkage gear 26, during the rotation of the right-side linkage gear 26, the left-side linkage gear 24 rotates along with the right-side linkage gear 26 and the left-side linkage gear 24 and the right-side linkage gear 26 synchronously rotate in opposite directions, and the left-side linkage gear 24 and the right-side linkage gear 26 synchronously rotate, The right roller shaft 22 rotates in a synchronous and reverse direction, the left roller shaft 21 and the right roller shaft 22 which rotate in the synchronous and reverse direction drive the left iron wire conveying roller 23 and the right iron wire conveying roller 25 to rotate in the synchronous and reverse direction, and under the extrusion action of the left iron wire conveying roller 23 and the right iron wire conveying roller 25 which rotate in the synchronous and reverse direction, the iron wire 100 between the left iron wire conveying roller 23 and the right iron wire conveying roller 25 is pushed from front to back.

It should be emphasized that, when the iron wire 100 is completely conveyed from front to back and no iron wire 100 is in the sensing piece through hole 741 of the movable sensing piece 74, the free end of the movable sensing piece 74 falls down due to its own weight and exits from the sensing slot of the slot-shaped photoelectric switch 73, at this time, the slot-shaped photoelectric switch 73 feeds back a signal to the PLC controller, the PLC controller controls the conveying driving servo motor 3 to stop, and at this time, the conveying action of the iron wire 100 stops.

In the process of realizing the conveying of the iron wire 100, to the utility model discloses an iron wire guide roller group 5, the iron wire 100 can pass through between left side iron wire guide roller 551 and right side iron wire guide roller 552, and left side iron wire guide roller 551 matches with right side iron wire guide roller 552 and guides the iron wire 100 to transfer from front to back. It should be noted that, for the iron wire guiding roller set 5 of the present invention, the left T-shaped block 531 and the right T-shaped block 532 adopt adjustable structural designs respectively, so that the distance between the left iron wire guiding roller 551 and the right iron wire guiding roller 552 is adapted to iron wires 100 with different diameters; during the process of adjusting the distance between the left iron wire guide roller 551 and the right iron wire guide roller 552, a worker can unscrew the left adjusting screw and the right adjusting screw, move the left T-shaped block 531 leftwards and rightwards along the left T-shaped groove 521 and move the right T-shaped block 532 leftwards and rightwards along the right T-shaped groove 522 after the left adjusting screw and the right adjusting screw are unscrewed, and screw the corresponding left adjusting screw and the right adjusting screw to fix the left T-shaped block 531 and the right T-shaped block 532 after the left T-shaped block 531 and the right T-shaped block 532 are adjusted to move in place; in the process of moving the left and right T-blocks 531, 532 by the left and right adjustment, the left guide roller shaft 541 and the left wire guide roller 551 move left and right in synchronization with the left T-block 531, and the right guide roller shaft 542 and the right wire guide roller 552 move left and right in synchronization with the right T-block 532.

synthesize above-mentioned circumstances and know, through above-mentioned structural design, the utility model has the advantages of structural design is novel, degree of automation is high, and can realize iron wire 100 conveying operation reliably and stably.

the above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (5)

1. an iron wire conveyer, its characterized in that: comprises a conveying mounting frame (1), the conveying mounting frame (1) comprises a mounting frame upper side transverse plate (11) and a mounting frame lower side transverse plate (12) which are respectively horizontally and transversely arranged, the mounting frame upper side transverse plate (11) is positioned at the upper end side of the mounting frame lower side transverse plate (12), the mounting frame upper side transverse plate (11) and the mounting frame lower side transverse plate (12) are arranged at intervals, an iron wire conveying roller set (2) is arranged on the mounting frame upper side transverse plate (11), the iron wire conveying roller set (2) comprises a left side roller shaft (21) and a right side roller shaft (22) which are respectively vertically arranged and synchronously and reversely rotate, the left side roller shaft (21) is positioned at the left end side of the right side roller shaft (22), the left side roller shaft (21) and the right side roller shaft (22) are respectively arranged at intervals, the mounting frame upper side transverse plate (11) corresponds to the left side roller shaft (21), the right side roller, the upper ends of the left roller shaft (21) and the right roller shaft (22) respectively penetrate through the corresponding roller shaft mounting through holes (111) from bottom to top and respectively extend to the upper end side of the mounting frame upper side transverse plate (11), and the lower ends of the left roller shaft (21) and the right roller shaft (22) respectively extend to the lower end side of the mounting frame upper side transverse plate (11);

A left iron wire conveying roller (23) is sleeved at the upper end part of the left roller shaft (21), a left linkage gear (24) is sleeved at the lower end part of the left roller shaft (21), and the left iron wire conveying roller (23) and the left linkage gear (24) respectively rotate synchronously along with the left roller shaft (21); the upper end part of the right roller shaft (22) is sleeved with a right iron wire conveying roller (25), the lower end part of the right roller shaft (22) is sleeved with a right linkage gear (26), and the right iron wire conveying roller (25) and the right linkage gear (26) respectively rotate synchronously along with the right roller shaft (22);

The lower surface of a transverse plate (12) at the lower side of the mounting frame is provided with a transmission driving servo motor (3) in a threaded manner, a power output shaft of the transmission driving servo motor (3) penetrates through the transverse plate (12) at the lower side of the mounting frame and extends to the upper end side of the transverse plate (12) at the lower side of the mounting frame, a transmission driving gear (4) which synchronously rotates along with the power output shaft is arranged on the power output shaft of the transmission driving servo motor (3), the transmission driving gear (4) is meshed with a right side linkage gear (26), and the right side linkage gear (26) is meshed with a left side linkage;

The transverse plate (11) at the upper side of the mounting rack is respectively provided with an iron wire guide roller group (5) at the front end side and the rear end side of the iron wire conveying roller group (2).

2. An iron wire conveying apparatus according to claim 1, characterized in that: the iron wire guide roller group (5) comprises at least two left fixed mounting blocks (511) which are uniformly arranged from front to back at intervals and are respectively screwed and fastened on the upper surface of the upper transverse plate (11) of the mounting frame, and at least two right fixed mounting blocks (512) which are uniformly arranged from front to back at intervals and are respectively screwed and fastened on the upper surface of the upper transverse plate (11) of the mounting frame;

A left T-shaped groove (521) which is opened upwards and extends along the left-right direction is formed between every two adjacent left fixed mounting blocks (511), a left T-shaped block (531) with the cross section shape consistent with that of the left T-shaped groove (521) is embedded in the left T-shaped groove (521), a left long circular hole (5311) which completely penetrates up and down and extends along the left-right direction is formed in the left T-shaped block (531), a left adjusting screw which is in threaded connection with a transverse plate (11) on the upper side of the mounting frame is embedded in the left long circular hole (5311) of the left T-shaped block (531), a left guide roller shaft (541) which vertically extends upwards is arranged in the left T-shaped block (531), and a left iron wire guide roller (551) is sleeved at the upper end of the left guide roller shaft (541);

The right side T type groove (522) that the opening just extends along the left and right direction is formed between two adjacent right side fixed mounting pieces (512), the right side T type piece (532) that the cross-sectional shape is unanimous with the cross-sectional shape in right side T type groove (522) embedded being equipped with in right side T type groove (522), right side slotted hole (5321) that run through completely and extend along the left and right direction about seted up in right side T type piece (532), the right side slotted hole (5321) of right side T type piece (532) are embedded being equipped with the right side adjusting screw with mounting bracket upside diaphragm (11) spiro union, right side T type piece (532) have installed right side guide roller shaft (542) of vertical extension up, right side iron wire guide roller (552) are overlapped to the upper end of right side guide roller shaft (542).

3. An iron wire conveying apparatus according to claim 2, characterized in that: conveying mounting bracket (1) is still including mounting bracket connection riser (13) that is vertical layout, and mounting bracket connection riser (13) are located mounting bracket upside diaphragm (11) with between mounting bracket downside diaphragm (12), the upper end of mounting bracket connection riser (13), lower tip respectively with mounting bracket upside diaphragm (11), mounting bracket downside diaphragm (12) spiro union of corresponding side.

4. An iron wire conveying apparatus according to claim 3, characterized in that: the upper surface of the front end part of the transverse plate (11) on the upper side of the mounting frame is in front of the iron wire guide roller set (5), an iron wire positioning seat (6) is screwed on the front end side of the iron wire guide roller set, an iron wire positioning hole (61) which completely penetrates through the iron wire positioning seat (6) is formed in the front and the back of the iron wire positioning seat, and an opening at the front end of the iron wire positioning hole (61) is in a flaring shape.

5. an iron wire conveying apparatus according to claim 4, characterized in that: the iron wire induction mechanism (7) is arranged between the iron wire positioning seat (6) and the iron wire guide roller group (5) on the front side of the mounting frame on the upper side transverse plate (11), the iron wire induction mechanism (7) comprises a left induction mounting seat (71) and a right induction mounting seat (72) which are respectively screwed on the upper surface of the upper side transverse plate (11) of the mounting frame, the left induction mounting seat (71) is positioned on the left end side of the right induction mounting seat (72), the left induction mounting seat (71) and the right induction mounting seat (72) are oppositely arranged at intervals, a groove-shaped photoelectric switch (73) is screwed on the upper end part of the left induction mounting seat (71), a movable induction sheet (74) is arranged at the upper end part of the right induction mounting seat (72) through a pivot, and an induction sheet through hole (741) which completely penetrates through from front to back is formed in the middle position of the movable induction sheet (74; when the iron wire (100) passes through the sensing sheet through hole (741) of the movable sensing sheet (74) from front to back, the free end part of the movable sensing sheet (74) extends into the sensing groove of the groove-shaped photoelectric switch (73); when no iron wire (100) passes through the sensing piece through hole (741) of the movable sensing piece (74) from front to back, the free end part of the movable sensing piece (74) falls down due to self gravity and exits out of the sensing groove of the groove-shaped photoelectric switch (73).