CN215144320U - Forming mechanism for steel wire forming equipment - Google Patents

Abstract

The utility model relates to a steel wire winding shaping technical field of spinning trade. The utility model discloses a forming mechanism for steel wire former, include: the forming mechanism is divided into a left upper die, a right upper die, a lower die and the die core, and the upper die is divided into two parts, so that the forming of the special-shaped steel wire ring is perfectly solved; in addition, the upper left mould, the upper right mould and the lower mould are all driven by servo motors to complete forming, when the model needs to be changed, the mechanical structure does not need to be adjusted after the tool is changed, and only parameters need to be modified in the middle of the touch screen, so that the adjusting time and the strength of workers are greatly shortened, the forming efficiency is greatly improved, and the forming precision is also improved.

Description

Forming mechanism for steel wire forming equipment

Technical Field

The utility model relates to a steel wire winding shaping technical field of spinning trade particularly, relates to a steel wire intelligence former.

Background

At present, in the spinning industry, a bead ring forming machine tool comprises a discharging mechanism, a leveling mechanism, a traction mechanism, a punching mechanism and a cutting and forming mechanism. The steel wire is released by the discharging mechanism, the steel wire is pulled by the pulling mechanism, and the finished steel wire ring is obtained through leveling, pulling, punching and cutting in sequence and finally forming. The traction mechanism is firstly passed by the traction mechanism, and then the punching mechanism is passed by the traction mechanism, so that the phenomena of material blocking and material accumulation occasionally occur. The forming mechanism is divided into an upper die, a lower die and a die core, and the machine tool has limitation and short plates on formed products and cannot form special-shaped steel wire rings; in addition, the existing forming mechanism adopts a cam structure, so that a large amount of time is consumed for adjusting the mechanical structure every time model changing is carried out, the precision is poor, and the speed is slow.

Therefore, the applicant proposes the utility model discloses a forming mechanism for steel wire former to improve current steel wire intelligence former.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the weak point among the prior art, providing a forming mechanism for steel wire former, shaping is efficient, the precision is high, easy operation, and it is more intelligent.

The purpose of the utility model is realized like this:

a forming mechanism for a wire forming apparatus, comprising: the steel wire feeding device comprises a feeding clamping plate group, a material blocking block, a mold core, an upper left forming die, an upper right forming die and a lower forming die, wherein the feeding clamping plate group consists of an upper feeding clamping plate and a lower feeding clamping plate, and a gap for a steel wire to pass through is formed between the upper feeding clamping plate and the lower feeding clamping plate.

The feeding clamping plate group and the material stop block are arranged oppositely from left to right, the mold core is positioned between the feeding clamping plate group and the material stop block, the lower parts of the left upper forming die and the right upper forming die are arranged to extend to the position between the feeding splint group and the material blocking block, the lower end profiles of the left upper forming die and the right upper forming die are respectively the same as the left profile and the right profile of the upper part of the steel wire ring, the upper part of the lower forming die can extend to the position between the feeding clamping plate group and the material blocking block, the upper end profile of the lower forming die is provided with an upward opening, the opening has an arc shape the same as the shape of the lower profile of the bead ring, the lower end profiles of the left and the right upper forming dies and the upper end profile of the lower forming die are distributed around the die core, and a cutting knife is further arranged at the position, close to the feeding clamping plate group, of the left upper end of the lower forming die, and the knife tip of the cutting knife is higher than the upper top surface of the lower forming die.

The left upper forming die and the right upper forming die are driven by a left servo motor, a right servo motor, a left screw rod and a right screw rod respectively to do linear motion, and the lower forming die is driven by a lower servo motor and a lower screw rod to do vertical motion; one end of each screw rod is respectively connected with the corresponding servo motor, the other end of each screw rod is respectively connected with the corresponding screw rod seat, the left upper forming die, the right upper forming die and the lower forming die are respectively fixed on the corresponding screw rod seats, and the screw rod seats are respectively connected on the sliding rail.

A first cushion block is arranged below the feeding clamping plate group, and the feeding clamping plate group is arranged on the first cushion block to move so as to adjust the position of the feeding clamping plate group; and a second cushion block is arranged below the material blocking block, and the material blocking block can move on the second cushion block to adjust the position of the material blocking block.

And the horizontal position fine-tuning device is used for enabling the feeding clamping plate group and the material blocking block to be fine-tuned in the horizontal position relative to the mold core.

As above-mentioned forming mechanism can be used to steel wire former, steel wire former is equipped with steel wire drop feed mechanism, levelling mechanism, drive mechanism and the utility model discloses forming mechanism. And releasing the steel wire by the discharging mechanism, drawing the steel wire by the drawing mechanism, leveling, drawing, punching, cutting and finally forming to obtain the finished steel wire ring.

The horizontal position fine-tuning device comprises a first horizontal position fine-tuning device and a second horizontal position fine-tuning device. The first horizontal position fine-tuning device is used for adjusting the feeding clamping plate group to be fine-tuned in the horizontal position relative to the mold core, and the second horizontal position fine-tuning device is used for adjusting the material blocking block to be fine-tuned in the horizontal position relative to the mold core.

Preferably, the cutting blade and the lower forming die are of an integral structure.

The utility model provides a forming mechanism for steel wire former, through improving traditional forming mechanism, divide into upper left mould, upper right mould, lower mould and mold core with forming mechanism, after dividing the upper mould into two, the shaping of dysmorphism wire winding has just so perfectly been solved; in addition, the left upper die, the right upper die and the lower die are driven by servo motors to complete forming, when the model needs to be changed, the mechanical structure does not need to be adjusted after the tooling part is changed, and only parameters need to be modified in the touch screen, so that the adjustment time and strength of workers are greatly shortened; the forming efficiency is greatly improved, and the forming precision is also improved.

Furthermore, one, two or more clamp plate steel wire grooves for steel wires to pass through are arranged between the upper and lower feed clamp plates of the feed clamp plate group of the forming mechanism. Therefore, the utility model provides a forming mechanism for steel wire former can be used to the steel wire former of single steel wire of production, also can design into the steel wire former that can synchronous production or adjust into two or even many steel wires as required.

Drawings

Further advantages and features of the invention are illustrated by the following description of an embodiment of the invention, given by way of example and not by way of limitation, with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a preferred embodiment of a forming mechanism for a steel wire forming apparatus according to the present invention.

Fig. 2 is a schematic side view of the feed nip group of the embodiment shown in fig. 1.

Fig. 3 is a schematic side view of the feeding nip set according to another preferred embodiment of the forming mechanism of the steel wire forming apparatus of the present invention.

Detailed Description

The forming mechanism for a steel wire forming apparatus as shown in fig. 1 and 2 comprises: the feeding clamping plate group 1 comprises an upper feeding clamping plate and a lower feeding clamping plate, and a clamping plate steel wire groove 100 for steel wires to pass through is arranged between the upper feeding clamping plate and the lower feeding clamping plate. The feeding splint group 1 and the material stop block 2 are oppositely arranged left and right, the mold core 3 is positioned between the feeding splint group 1 and the material stop block 2, the lower parts of the left upper forming die 4 and the right upper forming die 5 are arranged to extend to the position between the feeding splint group 1 and the material stop block 2, the lower end profiles of the left upper forming die 4 and the right upper forming die 5 are respectively the same as the left profile and the right profile of the upper part of the steel wire ring, the upper part of the lower forming die 6 is arranged to extend to the position between the feeding splint group 1 and the material stop block 2, the upper end profile of the lower forming die 6 is arranged with an upward opening and has an arc shape the same as the lower profile of the steel wire ring, the lower end profiles of the left upper forming die 4 and the right upper forming die 5 and the upper end profile of the lower forming die 6 are distributed around the mold core 3, a cutting knife 7 is also arranged at the position of the left upper end of the lower forming die 6 close to the feeding splint group 1, the cutting knife 7 and the lower forming die 6 are of an integral structure, and the nose is higher than the upper top surface of the lower forming die 6.

The upper left forming die 4, the upper right forming die 5 and the lower forming die 6 are driven to move by corresponding servo motors 9 and lead screws 8 respectively. One end of each screw rod is respectively connected with the corresponding servo motor, and the other end of each screw rod is respectively connected with the corresponding screw rod seat. The upper left forming die 4, the upper right forming die 5 and the lower forming die 6 are respectively fixed on the corresponding screw rod seats, and the screw rod seats are respectively connected on the slide rails.

A first cushion block 12 is arranged below the feeding splint group 1, and the feeding splint group 1 is arranged to move on the first cushion block 12 so as to adjust the position of the feeding splint group 1; the second cushion block 13 is arranged below the material blocking block 2, and the material blocking block 2 can move on the second cushion block 13 to adjust the position of the material blocking block 2.

In addition, the forming mechanism is also provided with a first forming mechanism horizontal position fine-tuning device 14 and a second forming mechanism horizontal position fine-tuning device 15. The first forming mechanism horizontal position fine-tuning device 14 is used for adjusting the feeding splint group 1 to be fine-tuned in the horizontal position relative to the mold core 3; the second forming mechanism horizontal position fine-tuning device 15 is arranged for adjusting the material blocking block 2 to be fine-tuned in the horizontal position relative to the mold core 3.

The steel wire forming equipment is provided with a steel wire discharging mechanism, a leveling mechanism, a punching mechanism, a traction mechanism and a forming mechanism. The steel wire 16 is released by the discharging mechanism, the steel wire is pulled by the traction mechanism, and the finished steel wire ring is obtained through leveling, traction, punching, cutting and final forming.

The above-mentioned embodiment is applicable to the steel wire former of production single steel wire. The utility model provides a forming mechanism for steel wire former can also design into the steel wire former who is applicable to two even many steel wires of synchronous production. Take the steel wire forming equipment which is designed to be suitable for producing two steel wires synchronously as an example, the structure of the steel wire forming equipment is basically the same as that of the steel wire forming equipment in the previous embodiment, and the steel wire forming equipment also comprises: the device comprises a feeding clamping plate group 1, a material blocking block 2, a mold core 3, a left upper forming die 4, a right upper forming die 5 and a lower forming die 6. Similarly, the feeding splint group 1 is composed of an upper feeding splint and a lower feeding splint, and the difference is that in this embodiment, two splint steel wire grooves 100 through which steel wires pass are provided between the upper feeding splint and the lower feeding splint.

Although the present invention has been described in terms of the preferred embodiments, it is not intended that the scope of the invention be limited to the exact construction and arrangement shown and described, and it is intended that all equivalent alterations and modifications that can be devised readily by those skilled in the art based on the foregoing description be embraced by the scope of the invention.

Claims (4)

1. A forming mechanism for a steel wire forming device, comprising: the steel wire feeding device comprises a feeding clamping plate group, a material blocking block, a mold core, an upper left forming die, an upper right forming die, a lower forming die and a horizontal position fine-tuning device, wherein the feeding clamping plate group consists of an upper feeding clamping plate and a lower feeding clamping plate, and a gap for a steel wire to pass through is formed between the upper feeding clamping plate and the lower feeding clamping plate;

the feeding clamping plate group and the material stop block are arranged oppositely from left to right, the mold core is positioned between the feeding clamping plate group and the material stop block, the lower parts of the left upper forming die and the right upper forming die are arranged to extend to the position between the feeding splint group and the material blocking block, the lower end profiles of the left upper forming die and the right upper forming die are respectively the same as the left profile and the right profile of the upper part of the steel wire ring, the upper part of the lower forming die can extend to the position between the feeding clamping plate group and the material blocking block, the upper end profile of the lower forming die is provided with an upward opening, the opening has an arc shape the same as the shape of the lower profile of the bead ring, the lower end profiles of the left and the right upper forming dies and the upper end profile of the lower forming die are distributed around the die core, a cutting knife is further arranged at the position, close to the feeding clamping plate group, of the left upper end of the lower forming die, and the knife tip of the cutting knife is higher than the upper top surface of the lower forming die;

the left upper forming die and the right upper forming die are driven by a left servo motor, a right servo motor, a left screw rod and a right screw rod respectively to do linear motion, and the lower forming die is driven by a lower servo motor and a lower screw rod to do vertical motion; one end of each screw rod is respectively connected with the corresponding servo motor, the other end of each screw rod is respectively connected with the corresponding screw rod seat, the left upper forming die, the right upper forming die and the lower forming die are respectively fixed on the corresponding screw rod seats, and each screw rod seat is respectively connected on the slide rail;

a first cushion block is arranged below the feeding clamping plate group, and the feeding clamping plate group is arranged on the first cushion block to move so as to adjust the position of the feeding clamping plate group; a second cushion block is arranged below the material blocking block, and the material blocking block can move on the second cushion block to adjust the position of the material blocking block;

and the horizontal position fine-tuning device is used for enabling the feeding clamping plate group and the material blocking block to be fine-tuned in the horizontal position relative to the mold core.

2. The forming mechanism for a steel wire forming apparatus according to claim 1, wherein: the horizontal position fine-tuning device comprises:

the first horizontal position fine-tuning device is used for adjusting the feeding clamping plate group to be fine-tuned relative to the mold core in the horizontal position; and

and the second horizontal position fine-tuning device is used for adjusting the material blocking block to be fine-tuned relative to the mold core in the horizontal position.

3. The forming mechanism for a steel wire forming apparatus according to claim 1, wherein: the cutting knife and the lower forming die are of an integral structure.

4. The forming mechanism for a steel wire forming apparatus according to claim 1, wherein: one, two or more clamp plate steel wire grooves for steel wires to pass through are arranged between the upper and lower feed clamp plates of the feed clamp plate group.

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