CN117166272A - Auxiliary wire feeding device for production - Google Patents

Abstract

The application belongs to the field of auxiliary wire feeding, and particularly relates to an auxiliary wire feeding device for production, which comprises a mounting plate and a spool placing device, wherein the spool placing device is arranged on the mounting plate, a wire storage device is arranged on the mounting plate, a locking device for locking wires is arranged on the wire storage device, an adjusting device for adjusting the wire storage length of the wire storage device is arranged on the wire storage device, other devices are arranged through the mounting plate, spools for placing steel wires are placed on the spool placing device, the quality of the spools gradually decreases along with the use of the steel wires, then the spool placing device can move upwards with the spools, the moving spool placing device can drive the locking device and the adjusting device, after the steel wires of the spools are used up, the locking device locks the steel wires at the end of the spool so that the steel wires at the end of the spool do not move, the adjusting device drives the wire storage device to reduce the support of the steel wires, then the steel wires inside the wire storage device can be pulled out continuously, and then new steel wires are welded on the steel wires locked by the locking device.

Description

Auxiliary wire feeding device for production

Technical Field

The application belongs to the field of auxiliary wire feeding, and particularly relates to an auxiliary wire feeding device for production.

Background

The steel wire rope is a spiral steel wire bundle formed by twisting steel wires with mechanical properties and geometric dimensions meeting the requirements together according to a certain rule, the steel wire rope consists of steel wires, rope cores and lubricating grease, the consumption of the steel wire rope in different fields is increased, the requirements on the quality and the performance of the steel wire rope are also increased, and on the premise that the diameter of the steel wire rope is not increased basically, the requirement on the breaking force of the steel wire rope is increased, and the steel wire rope is required to have stronger fatigue resistance and higher dimensional accuracy.

In the production process of the existing steel wire rope, the length of the steel wire is continuously reduced along with the continuous increase of the length, and when the steel wire is about to be used up, a machine for producing the steel wire rope is required to be stopped and then a new steel wire is required to be supplemented, so that the production rate of the steel wire rope is influenced.

Disclosure of Invention

The application aims to provide a production auxiliary line feeding device, which can be used for rapidly separating garbage from sewage when excessive garbage in the sewage is solved, and the separated garbage can be automatically separated and collected.

In order to achieve the above purpose, the specific technical scheme of the auxiliary wire feeding device for production of the application is as follows:

the auxiliary wire feeding device for production comprises a mounting plate and a wire spool placing device, wherein the wire spool placing device is arranged on the mounting plate;

the wire storage device comprises a storage installation cylinder, a wire inlet hole, a wire outlet hole, a fixed disk, a rotating shaft, a first bevel gear, a threaded rod, a second bevel gear, an internal thread square rod and a rotating seat, wherein the wire inlet hole and the wire outlet hole are formed in the storage installation cylinder, the fixed disk is arranged inside the storage installation cylinder, the rotating shaft is arranged on the fixed disk, one end of the rotating shaft is provided with the first bevel gear, the threaded rod is rotationally arranged inside the fixed disk, one end of the threaded rod is provided with the second bevel gear meshed with the first bevel gear, the other end of the threaded rod is provided with the internal thread square rod, the internal thread square rod slides inside the fixed disk, the rotating seat is arranged on the internal thread square rod, a plurality of rotating seats are surrounded to form a combined cylinder for winding wires, the other end of the rotating shaft is provided with the wire storage device, and the locking device and the wire inlet hole are arranged on the storage installation cylinder to be communicated.

Further, locking device includes first inclined plane push rod, wire pipe, first sliding tray, first spring, drive arrangement, first sliding chamber, sphere toper bolt and second spring, be equipped with first sliding tray on the wire pipe, drive arrangement is at the inside sliding motion of first sliding tray, first sliding tray and drive arrangement are equipped with first spring, first sliding chamber sets up inside the wire pipe, sphere toper bolt sets up inside first sliding chamber, be equipped with the second spring between sphere toper bolt and the first sliding chamber, first inclined plane push rod sets up on the spool puts the device, first inclined plane push rod promotes drive arrangement and orders about sphere toper bolt and slide, wire pipe sets up on the storage installation section of thick bamboo and wire inlet intercommunication.

Further, the driving device comprises a sliding cylinder, a first inclined plane, a pushing ring and a second inclined plane, wherein the sliding cylinder is provided with the first inclined plane, the pushing ring is arranged on the sliding cylinder, the pushing ring is provided with the second inclined plane, the pushing rod of the first inclined plane extrudes the second inclined plane, and the first inclined plane extrudes the conical spherical plug.

Further, adjusting device includes second inclined plane pole, inclined plane promotion fork, fixed mounting seat, energy storage device, transmission and stop device, be equipped with the inclined plane promotion fork that is used for promoting stop device on the second inclined plane pole, energy storage device sets up on the second inclined plane pole, the inside transmission that is equipped with of fixed mounting seat, transmission sets up on energy storage device, be equipped with the promotion stop device that restriction transmission operated on the fixed mounting seat, the second inclined plane pole sets up on spool put the device, the fixed mounting seat sets up on the mounting panel, transmission is used for driving the axis of rotation and rotates.

Further, the energy storage device comprises a pushing column, a sliding plate, an energy storage spring and a second sliding groove, wherein the sliding plate is arranged at one end of the pushing column, the other end of the pushing column is arranged on the second inclined surface rod, the sliding plate slides in the second sliding groove, the energy storage spring is arranged between the moving plate and the second sliding groove, and the transmission device is arranged on the sliding plate through the second sliding groove.

Further, the transmission device comprises a second sliding column, a tooth surface and a gear, wherein the tooth surface is arranged on the second sliding column, the tooth surface is meshed with the gear, the gear is arranged at the other end of the rotating shaft, and a second sliding groove is formed in the second sliding column.

Further, stop device includes fixed section of thick bamboo, stop cock, third spring, inclined plane flitch and spacing hole, the inside stop cock that is equipped with of fixed section of thick bamboo, be equipped with the third spring between fixed section of thick bamboo and the stop cock, the inclined plane flitch sets up on the stop cock, the removal of two slip posts of restriction in the stop cock inserts the spacing hole, be equipped with spacing hole on two slip posts.

The application has the advantages that:

according to the application, other devices are arranged through the mounting plate, the spool placing device is used for placing spools of steel wires, the spool placing device can move upwards with the spools along with the reduction of the quality of the spools along with the use of the steel wires, the moving spool placing device can drive the locking device and the adjusting device, after the steel wires of the spools are used up, the locking device locks the steel wires so that the steel wires at the spool ends are not moved, the adjusting device drives the wire storage device to reduce the support of the steel wires, then the steel wires in the wire storage device can be pulled out continuously, and then new steel wires are welded on the steel wires locked by the locking device.

The adjusting device drives the rotation shaft to rotate, the rotation shaft drives the first bevel gear to rotate, the first bevel gear to rotate drives the second bevel gear to rotate, the second bevel gear drives the threaded rod to rotate, the rotating threaded rod enables the internal thread square rod to drive the rotating seat to move towards the direction close to the rotation shaft, then the radius of the combined circle of the rotating seat is reduced, and the steel wire wound on the combined circle is pulled to be used for production of the steel wire rope continuously.

Drawings

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

FIG. 2 is a schematic view of the overall structure of the present application in section;

FIG. 3 is a schematic diagram of a wire storage device according to the present application;

FIG. 4 is a schematic diagram of a broken line storage device according to the present application;

FIG. 5 is a schematic diagram showing a broken line of the line storage device of the present application;

FIG. 6 is a schematic diagram of a local structure of a wire storage device according to the present application;

FIG. 7 is a schematic diagram of a local structure of a wire storage device according to the present application;

FIG. 8 is a schematic view of a locking device according to the present application;

FIG. 9 is a schematic view of a locking device according to the present application in a cut-away view;

FIG. 10 is a schematic view of the structure of the adjusting device of the present application;

FIG. 11 is a schematic view of a cut-away view of an adjusting device according to the present application;

FIG. 12 is an enlarged partial schematic view A of FIG. 11;

the figure indicates:

a mounting plate 1; a spool placement device 2; a wire storage device 3; a storage and installation cylinder 3-1; 3-2 of a wire inlet hole; 3-3 of wire outlet holes; 3-4 of fixed discs; 3-5 of a rotating shaft; a first bevel gear 3-6; 3-7 of a threaded rod; a second bevel gear 3-8; 3-9 of an internal thread square rod; 3-10 of a rotating seat; a locking device 4; a first inclined push rod 4-1; a wire passing pipe 4-2; a first sliding groove 4-3; a first spring 4-4; driving means 4-5; a sliding cylinder 4-5-1; a first inclined plane 4-5-2; pushing the ring 4-5-3; a second inclined plane 4-5-4; a first sliding chamber 4-6; spherical conical bolts 4-7; a second spring 4-8; an adjusting device 5; a second bevel lever 5-1; the inclined plane pushes the fork 5-2; 5-3 of a fixed mounting seat; 5-4 parts of energy storage devices; pushing the column 5-4-1; 5-4-2 of sliding plates; 5-4-3 parts of energy storage springs; a second sliding groove 5-4-4; 5-5 parts of a transmission device; a second sliding column 5-5-1; 5-5-2 of tooth surfaces; 5-5-3 of gears; 5-6 parts of limiting devices; 5-6-1 of a fixed cylinder; 5-6-2 of limit bolts; a third spring 5-6-3; inclined plane pushing plate 5-6-4; 5-6-5 of limiting holes.

Detailed Description

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the application are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, a production auxiliary wire feeding device comprises a mounting plate 1 and a wire spool placing device 2, wherein the wire spool placing device 2 is arranged on the mounting plate 1, a wire storage device 3 is arranged on the mounting plate 1, a locking device 4 for locking wires is arranged on the wire storage device 3, an adjusting device 5 for adjusting the wire storage length of the wire storage device 3 is arranged on the wire storage device 3, other devices are arranged through the mounting plate 1, the wire spools are placed on the wire spools placing device 2, the quality of the wire spools gradually decreases along with the use of the wire spools, then the wire spools placing device 2 moves upwards with the wire spools, the moving wire spools placing device 2 drives the locking device 4 and the adjusting device 5, after the wire spools are used up soon, the locking device 4 locks the wire spools so that the wire at the wire spool ends does not move, the adjusting device 5 drives the wire storage device 3 to reduce the support on the wire, then the wire inside the wire storage device 3 can be pulled out continuously, and new wire is welded on the wire locked by the locking device 4;

the wire storage device 3 comprises a storage installation barrel 3-1, a wire inlet hole 3-2, a wire outlet hole 3-3, a fixed disc 3-4, a rotating shaft 3-5, a first bevel gear 3-6, a threaded rod 3-7, a second bevel gear 3-8, an internal thread square rod 3-9 and a rotating seat 3-10, wherein the wire inlet hole 3-2 and the wire outlet hole 3-3 are arranged on the storage installation barrel 3-1, the fixed disc 3-4 is internally provided with the fixed disc 3-4, the rotating shaft 3-5 is arranged on the fixed disc 3-4, one end of the rotating shaft 3-5 is provided with the first bevel gear 3-6, the threaded rod 3-7 is rotatably arranged in the fixed disc 3-4, one end of the threaded rod 3-7 is provided with the second bevel gear 3-8 meshed with the first bevel gear 3-6, the other end of the threaded rod 3-7 is provided with the internal thread square rod 3-9, the internal thread square rod 3-9 slides in the fixed disc 3-4, the internal thread square rod 3-9 is provided with the rotating seat 3-10, a plurality of gears 3-5 are arranged on the rotating seat 3-9, one end of the rotating shafts 3-5 is rotatably arranged around the rotating shaft 3-5, one end of the threaded rod 3-6 is rotatably arranged on the threaded rod 3-6, the threaded rod 3-6 is rotatably drives the threaded rod 3-6, the threaded rod 3-6 is rotatably arranged on the threaded seat 3-6, and drives the threaded rod 3-6 to rotate around the second bevel gear 3-6, and drives the threaded rod 3-6, the threaded rod 3-5 to rotate 3-6, and is rotatably arranged on the threaded seat 3 and is rotatably and rotatably arranged on the threaded seat 3, the rotating threaded rod 3-7 enables the internal thread square rod 3-9 to drive the rotating seat 3-10 to move towards the direction close to the rotating shaft 3-5, then the radius of the combined circle of the rotating seat 3-10 is reduced, and the steel wire wound on the combined circle is pulled to be continuously used for producing the steel wire rope.

Wherein, as shown in fig. 8-9, the locking device 4 comprises a first inclined plane push rod 4-1, a wire passing tube 4-2, a first sliding groove 4-3, a first spring 4-4, a driving device 4-5, a first sliding cavity 4-6, a spherical taper bolt 4-7 and a second spring 4-8, wherein the wire passing tube 4-2 is provided with the first sliding groove 4-3, the driving device 4-5 slides in the first sliding groove 4-3, the first sliding groove 4-3 and the driving device 4-5 are provided with the first spring 4-4, the first sliding cavity 4-6 is arranged in the wire passing tube 4-2, the spherical taper bolt 4-7 is arranged in the first sliding cavity 4-6, a second spring 4-8 is arranged between the spherical taper bolt 4-7 and the first sliding cavity 4-6, the first inclined plane push rod 4-1 is arranged on the wire placing device 2, the first inclined plane push rod 4-1 pushes the driving device 4-5 to drive the spherical taper bolt 4-7, the wire passing tube 4-3 is arranged on the wire passing tube 4-2, and then the first inclined plane push rod 4-1 is pushed by the wire passing tube 4-3 to move around the wire passing tube 4-2, and the first inclined plane push rod 4-2 is compressed by the first inclined plane push rod 4-2 and the wire passing tube 4-2 is arranged on the wire passing tube 4-2, and then the first inclined plane push rod 4-2 is compressed by the wire passing tube 4-2 is arranged on the wire passing tube 4-2, and the first inclined plane 4-2 is arranged in the wire passing tube 4-2, and is set up and is connected with the first inclined plane 4-1, then the driving device 4-5 pushes the spherical conical bolt 4-7 to move towards the center, and the moved spherical conical bolt 4-7 locks the steel wire, so that the steel wire at the end of the wire inlet hole 3-2 does not move any more.

As shown in fig. 8-9, the driving device 4-5 includes a sliding cylinder 4-5-1, a first inclined plane 4-5-2, a pushing ring 4-5-3 and a second inclined plane 4-5-4, the sliding cylinder 4-5-1 is provided with the first inclined plane 4-5-2, the pushing ring 4-5-3 is arranged on the sliding cylinder 4-5-1, the pushing ring 4-5-3 is provided with the second inclined plane 4-5-4, the first inclined plane push rod 4-1 presses the second inclined plane 4-5-4, the first inclined plane 4-5-2 presses the spherical conical bolt 4-7, the first inclined plane push rod 4-1 pushes the pushing ring 4-5-3 to move through the second inclined plane 4-5-4, the pushing ring 4-5-1 pushes the spherical conical bolt 4-7 to move through the first inclined plane 4-5-2 and compress the second spring 4-8, and the compressed second spring 4-8 does not limit the trend of the conical bolt.

Wherein, as shown in fig. 10-12, the adjusting device 5 comprises a second inclined plane rod 5-1, an inclined plane pushing fork 5-2, a fixed mounting seat 5-3, an energy storage device 5-4, a transmission device 5-5 and a limiting device 5-6, wherein the inclined plane pushing fork 5-2 used for pushing the limiting device 5-6 is arranged on the second inclined plane rod 5-1, the energy storage device 5-4 is arranged on the second inclined plane rod 5-1, the transmission device 5-5 is arranged in the fixed mounting seat 5-3, the transmission device 5-5 is arranged on the energy storage device 5-4, the pushing limiting device 5-6 used for limiting the operation of the transmission device 5-5 is arranged on the fixed mounting seat 5-3, the second inclined plane rod 5-1 is arranged on the spool placing device 2, the fixed mounting seat 5-3 is arranged on the mounting plate 1, the transmission device 5-5 is used for driving the rotating shaft 3-5 to rotate, when the steel wire on the spool is used, the spool placing device 2 gradually moves upwards, the moving spool placing device 2 drives the second inclined plane rod 5-1 to move upwards, the second inclined plane rod 5-1 drives the inclined plane pushing fork 5-2 and the energy storage device 5-4 to move, the limit device 5-6 limits the transmission device 5-5 in the fixed mounting seat 5-3, so that the energy storage device 5-4 cannot push the transmission device 5-5 to move when moving upwards, and then the energy storage device 5-4 starts to store energy, when the second inclined plane rod 5-1 drives the inclined plane pushing fork 5-2 to push up the limiting device 5-6, the limiting device 5-6 is not used for limiting the transmission device 5-5, then the energy storage device 5-4 for energy storage pushes the transmission device 5-5 to move rapidly, the moving transmission device 5-5 drives the rotating shaft 3-5 to rotate, and the rotating shaft 3-5 drives the first bevel gear 3-6 to rotate.

As shown in fig. 10-12, the energy storage device 5-4 includes a pushing post 5-4-1, a sliding plate 5-4-2, an energy storage spring 5-4-3 and a second sliding groove 5-4-4, one end of the pushing post 5-4-1 is provided with the sliding plate 5-4-2, the other end of the pushing post 5-4-1 is arranged on the second inclined plane rod 5-1, the sliding plate 5-4-2 slides in the second sliding groove 5-4-4, an energy storage spring 5-4-3 is arranged between the moving plate 5-4-2 and the second sliding groove 5-4-4, the transmission device 5-5 is arranged on the sliding plate 5-4-2 through the second sliding groove 5-4-4, the moving second inclined plane rod 5-1 drives the pushing post 5-4-1 to move, the sliding plate 5-4-2 is driven by the pushing post 5-4-1 to move in the second sliding groove 5-4-4, but the limit device 5-6 is arranged in the second sliding groove 5-4-4, when the transmission device 5-4-3 is fixed in the transmission device 5-4-4, the transmission device 5-3 cannot be compressed, and then the transmission device 5-4 cannot move, and the transmission device is enabled to move upwards.

As shown in fig. 10-12, the transmission device 5-5 includes a second sliding column 5-5-1, a tooth surface 5-5-2 and a gear 5-5-3, the second sliding column 5-5-1 is provided with the tooth surface 5-5-2, the tooth surface 5-5-2 is meshed with the gear 5-5-3, the gear 5-5-3 is arranged at the other end of the rotating shaft 3-5, a second sliding groove 5-4-4 is arranged in the second sliding column 5-5-1, an energy storage spring 5-4-3 for energy storage pushes the second sliding column 5-5-1 to move, the second sliding column 5-5-1 drives the gear 5-5-3 to rotate through the tooth surface 5-5-2, the rotating gear 5-5-3 drives the rotating shaft 3-5 to rotate, and then the reduction of the diameters of a plurality of rotating seats 3-10 surrounding a combined cylinder is achieved.

As shown in fig. 10-12, the limiting device 5-6 includes a fixed cylinder 5-6-1, a limiting bolt 5-6-2, a third spring 5-6-3, an inclined plane pushing plate 5-6-4 and a limiting hole 5-6-5, wherein the limiting bolt 5-6-2 is arranged in the fixed cylinder 5-6-1, the third spring 5-6-3 is arranged between the fixed cylinder 5-6-1 and the limiting bolt 5-6-2, the inclined plane pushing plate 5-6-4 is arranged on the limiting bolt 5-6-2, the limiting bolt 5-6-2 is inserted into the limiting hole 5-6-5 to limit the movement of the two sliding columns 5-5-1, and the limiting hole 5-6-5 is arranged on the two sliding columns 5-5-1, when the spool placing device 2 drives the inclined plane pushing fork 5-2 to move to the inclined plane pushing plate 5-6-4, the inclined plane pushing plate 5-6-4 is pushed upwards, the inclined plane pushing plate 5-6-4 drives the upwards, the upwards moved inclined plane pushing plate 5-6-4 drives the limiting column 5-2 to move from the two sliding columns 5-5-3 to drive the two sliding columns 5-5-1 to move upwards, and then the two sliding columns 5-5-3 move upwards, and the two sliding columns 5-1-5-2 are separated from the limiting columns 5-1.

It will be understood that the application has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the application. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the application without departing from the essential scope thereof. Therefore, it is intended that the application not be limited to the particular embodiment disclosed, but that the application will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. The production auxiliary wire feeding device comprises a mounting plate (1) and a wire spool placing device (2), wherein the wire spool placing device (2) is arranged on the mounting plate (1), and is characterized in that a wire storage device (3) is arranged on the mounting plate (1), a locking device (4) for locking wires is arranged on the wire storage device (3), and an adjusting device (5) for adjusting the wire storage length of the wire storage device (3) is arranged on the wire storage device (3);

the wire storage device (3) comprises a storage installation cylinder (3-1), a wire inlet hole (3-2), a wire outlet hole (3-3), a fixed disc (3-4), a rotating shaft (3-5), a first bevel gear (3-6), a threaded rod (3-7), a second bevel gear (3-8), an internal thread square rod (3-9) and a rotating seat (3-10), the wire inlet hole (3-2) and the wire outlet hole (3-3) are arranged on the storage installation cylinder (3-1), the fixed disc (3-4) is arranged inside the storage installation cylinder (3-1), the rotating shaft (3-5) is arranged on the fixed disc (3-4), one end of the rotating shaft (3-5) is provided with a first bevel gear (3-6), the threaded rod (3-7) is rotatably arranged inside the fixed disc (3-4), one end of the threaded rod (3-7) is provided with the second bevel gear (3-8) meshed with the first bevel gear (3-6), the other end of the threaded rod (3-7) is provided with the internal thread square rod (3-9), the internal thread square rod (3-9) is fixed inside the fixed disc (3-4), the internal thread square rod (3-9) is provided with a rotating seat (3-10), a plurality of rotating seats (3-10) are surrounded to form a combined cylinder for winding, the other end of the rotating shaft (3-5) is provided with a wire storage device (3), and the storage mounting cylinder (3-1) is provided with a locking device (4) and a wire inlet hole (3-2) to be communicated.

2. A production auxiliary wire feeding device according to claim 1, wherein the locking device (4) comprises a first inclined plane push rod (4-1), a wire passing tube (4-2), a first sliding groove (4-3), a first spring (4-4), a driving device (4-5), a first sliding cavity (4-6), a spherical conical bolt (4-7) and a second spring (4-8), the wire passing tube (4-2) is provided with the first sliding groove (4-3), the driving device (4-5) slides in the first sliding groove (4-3), the first sliding groove (4-3) and the driving device (4-5) are provided with the first spring (4-4), the first sliding cavity (4-6) is arranged in the wire passing tube (4-2), the spherical conical bolt (4-7) is arranged in the first sliding cavity (4-6), a second spring (4-8) is arranged between the spherical conical bolt (4-7) and the first sliding cavity (4-6), the first inclined plane push rod (4-2) is arranged, the first inclined plane push rod (4-1) pushes the driving device (4-5) to drive the spherical conical bolt (4-7) to slide, and the wire passing pipe (4-2) is arranged on the storage installation cylinder (3-1) and is communicated with the wire inlet hole (3-2).

3. A production auxiliary wire feeding device according to claim 1, wherein the driving device (4-5) comprises a sliding cylinder (4-5-1), a first inclined plane (4-5-2), a pushing ring (4-5-3) and a second inclined plane (4-5-4), the sliding cylinder (4-5-1) is provided with the first inclined plane (4-5-2), the pushing ring (4-5-3) is arranged on the sliding cylinder (4-5-1), the pushing ring (4-5-3) is provided with the second inclined plane (4-5-4), the first inclined plane pushing rod (4-1) presses the second inclined plane (4-5-4), and the first inclined plane (4-5-2) presses the spherical conical bolt (4-7).

4. The production auxiliary wire feeding device according to claim 1, wherein the adjusting device (5) comprises a second inclined plane rod (5-1), an inclined plane pushing fork (5-2), a fixed mounting seat (5-3), an energy storage device (5-4), a transmission device (5-5) and a limiting device (5-6), the inclined plane pushing fork (5-2) for pushing the limiting device (5-6) is arranged on the second inclined plane rod (5-1), the energy storage device (5-4) is arranged on the second inclined plane rod (5-1), the transmission device (5-5) is arranged inside the fixed mounting seat (5-3), the transmission device (5-5) is arranged on the energy storage device (5-4), the pushing limiting device (5-6) for limiting the operation of the transmission device (5-5) is arranged on the fixed mounting seat (5-3), the second inclined plane rod (5-1) is arranged on the spool placing device (2), and the fixed mounting seat (5-3) is arranged on the mounting plate (1) and is used for driving the transmission device (5-5).

5. The production auxiliary wire feeding device according to claim 4, wherein the energy storage device (5-4) comprises a pushing column (5-4-1), a sliding plate (5-4-2), an energy storage spring (5-4-3) and a second sliding groove (5-4-4), one end of the pushing column (5-4-1) is provided with the sliding plate (5-4-2), the other end of the pushing column (5-4-1) is arranged on the second inclined surface rod (5-1), the sliding plate (5-4-2) slides in the second sliding groove (5-4-4), the energy storage spring (5-4-3) is arranged between the moving plate (5-4-2) and the second sliding groove (5-4-4), and the transmission device (5-5) is arranged on the sliding plate (5-4-2) through the second sliding groove (5-4-4).

6. A production auxiliary wire feeding device according to claim 5, wherein the transmission device (5-5) comprises a second sliding column (5-5-1), a tooth surface (5-5-2) and a gear (5-5-3), the tooth surface (5-5-2) is arranged on the second sliding column (5-5-1), the tooth surface (5-5-2) is meshed with the gear (5-5-3), the gear (5-5-3) is arranged on the other end of the rotating shaft (3-5), and a second sliding groove (5-4-4) is arranged inside the second sliding column (5-5-1).

7. The auxiliary wire feeding device for production according to claim 6, wherein the limiting device (5-6) comprises a fixed cylinder (5-6-1), a limiting bolt (5-6-2), a third spring (5-6-3), an inclined pushing plate (5-6-4) and a limiting hole (5-6-5), the limiting bolt (5-6-2) is arranged in the fixed cylinder (5-6-1), the third spring (5-6-3) is arranged between the fixed cylinder (5-6-1) and the limiting bolt (5-6-2), the inclined pushing plate (5-6-4) is arranged on the limiting bolt (5-6-2), the limiting bolt (5-6-2) is inserted into the limiting hole (5-6-5) to limit movement of the two sliding columns (5-5-1), and the limiting hole (5-6-5) is arranged on the two sliding columns (5-5-1).