CN113751929B - Welding wire feeding mechanism for solar panel production - Google Patents

Abstract

The invention discloses a welding wire feeding mechanism for solar panel production, which comprises a welding wire conveying tool and a welding wire shearing and feeding tool; the welding wire conveying tool is used for conveying welding wires on a welding wire reel and comprises a paying-off bracket and a guiding bracket; the welding wire shearing and feeding tool comprises a shearing module and a feeding module; the shearing module comprises a shearing support and a shearing assembly; the feeding module comprises a first translation mechanism, a feeding support, a feeding rotating shaft, a clamping module and a feeding motor. According to the invention, the paying-off support, the guide support, the shearing module and the feeding module are arranged, so that the welding wire can be automatically conveyed and corrected, the welding wire can be automatically sheared and placed on the small solar panel to be welded, and the solar panel is produced by matching with automatic solar panel production equipment, so that the production efficiency of the solar panel is improved.

Description

Welding wire feeding mechanism for solar panel production

Technical Field

The invention relates to production of solar panels, in particular to a welding wire feeding mechanism for solar panel production.

Background

Solar energy does not cause any pollution to the environment, so the solar energy is called as green clean energy, and is one of the cleanest energy sources. Today, solar energy is greatly popularized and applied, and solar panels are the basis of solar energy application, so the demand of solar panels on the market is huge.

The solar panel generally comprises a solar main panel, a panel carrier and connecting wires, wherein the solar main panel is not a panel, and is manufactured by welding and conducting a plurality of small solar panels through welding wires.

In order to improve the production efficiency of solar panels and the yield of solar panels, there is a need to develop an automatic solar panel production device, wherein welding wires required for welding are wound on a wire reel in a coiled manner, the welding wires need to be drawn out from the wire reel, and the bending of the drawn welding wires prevents the use, so how to automatically convey the welding wires and correct the welding wires is a problem to be solved in the automatic production of solar panels; meanwhile, how to automatically shear the welding wire and place the welding wire on the small solar panel to be welded is also a problem to be solved in the automatic production of the solar panel.

In view of the above, the present inventors have intensively conceived and have actively studied and tried improvement and developed the present invention.

Disclosure of Invention

The invention aims to provide a welding wire feeding mechanism for solar panel production. The welding wire feeding device is used for automatically conveying welding wires and correcting the welding wires, and is used for automatically cutting the welding wires and placing the welding wires on a small solar panel to be welded.

In order to achieve the above object, the solution of the present invention is:

The welding wire feeding mechanism comprises a welding wire conveying tool and a welding wire shearing and feeding tool; the welding wire conveying tool is used for conveying welding wires on a welding wire reel and comprises a paying-off bracket and a guiding bracket; a paying-off rod is arranged on one side of the paying-off support, and a first positioning pulley, a decelerating roller and a stretching assembly are arranged on the other side of the paying-off support from top to bottom; the upper part of the guide bracket is provided with a second positioning pulley, a compression module and a correction module from left to right; the welding wire reel is in running fit on the paying-off rod, and welding wires drawn out of the welding wire reel sequentially bypass the first positioning pulley, the stretching assembly, the speed reduction roller and the second positioning pulley and then sequentially pass through the compression module and the correction module; the welding wire shearing and feeding tool comprises a shearing module and a feeding module; the shear module comprises a shear support; and a shearing assembly mounted on the shearing support for shearing welding wire moving through the shearing assembly; the feeding module comprises a first translation mechanism; the feeding support is arranged on the first translation mechanism; the feeding rotating shaft is rotatably arranged at the upper part of the feeding support; the clamping module is arranged on the feeding rotating shaft and used for clamping or loosening the welding wire; and the feeding motor is arranged on the feeding support, and an output shaft of the feeding motor is in transmission connection with the feeding rotating shaft through a transmission belt.

The paying-off support comprises a support base, a front support rod, a top support rod and an inclined support rod group, wherein two ends of the front support rod are respectively connected to the front ends of the support base and the top support rod, two ends of the inclined support rod group are respectively connected to the rear ends of the support base and the top support rod, the paying-off rod is arranged on the inclined support rod group, and the first positioning pulley, the speed reduction roller and the stretching assembly are arranged on the front support rod; the oblique branch group includes two oblique branches, and two oblique branch both sides that are on the back of each other are used for installing the unwrapping wire pole, and two opposite sides of oblique branch are equipped with the storage tank that is used for placing the unwrapping wire pole.

The stretching assembly comprises a guide vertical rod which is arranged on the paying-off bracket; the gravity block is movably matched with the guide vertical rod and is connected to the paying-off bracket through the spring; and a tension pulley mounted at one side of the gravity block.

The compressing module comprises a compressing seat which is arranged on the guide bracket; the pressing device comprises a pressing bracket and a pressing cylinder, wherein the pressing cylinder is arranged on the pressing bracket and is positioned above a pressing seat; and the compressing block is arranged on a piston rod of the compressing cylinder.

The correction module comprises a correction seat, and a correction through groove is formed in the correction seat; and the correction block is detachably arranged at the end part of the correction seat.

The guide bracket is also provided with a supporting component, the supporting component is positioned between the second positioning pulley and the compaction module, the supporting component comprises a supporting seat and a supporting rotating shaft, and the supporting rotating shaft is in rotating fit on the supporting seat; and the supporting wheel is arranged on the supporting rotating shaft.

The welding auxiliary assembly is arranged on the guide bracket and is close to the second positioning pulley, and the welding auxiliary assembly comprises a welding auxiliary box body which is arranged on the guide bracket; the two liquid-absorbing cottons are overlapped and then placed in the soldering flux box body, and the upper end face of the liquid-absorbing cottons below the liquid-absorbing cottons is slightly higher than the upper end face of the soldering flux box body; and the soldering flux box cover is covered on the soldering flux box body.

The shear assembly includes a lower guide post; the cutter shearing seat is movably matched with the lower guide post; the first cylinder is mounted on the shearing support, and a piston rod of the first cylinder is connected to the cutter shearing seat; an upper guide post; the cutter mounting seat is movably matched with the upper guide post; the cutter is arranged on the cutter mounting seat and is in movable shearing fit with the cutter shearing seat; and a second cylinder mounted on the shear support, a piston rod of the second cylinder being connected to the cutter mount.

The first translation mechanism comprises a slide seat; the upper part of the sliding block is fixed at the bottom of the feeding support, and the lower part of the sliding block is in sliding fit with the sliding seat; and a piston rod of the third cylinder is connected to the feeding support.

The clamping module comprises a clamping seat which is arranged on the feeding rotating shaft; the double-piston-rod air cylinder is arranged on the clamping seat, and two piston rods in the double-piston-rod air cylinder relatively move; the welding wire clamping device comprises a double-rod cylinder, two clamping plates, a welding wire clamping device and a welding wire clamping device, wherein one ends of the two clamping plates are respectively connected to two piston rods of the double-rod cylinder, and clamping parts for clamping welding wires are respectively arranged at the other ends of the two clamping plates; the clamping part of one clamping plate is inclined downwards, the clamping part of the other clamping plate is inclined upwards, and the tail ends of the two clamping parts are respectively provided with a clamping plane.

By adopting the scheme, the automatic welding wire feeding device is provided with the paying-off support, the guiding support, the shearing module and the feeding module, so that the welding wire can be automatically conveyed and corrected, the welding wire can be automatically sheared and placed on the small solar panel to be welded, and the automatic solar panel feeding device is matched with automatic solar panel production equipment to produce the solar panel, so that the production efficiency of the solar panel is improved.

Drawings

FIG. 1 is a schematic diagram of a preferred embodiment of the present invention;

FIG. 2 is a schematic view of a welding wire conveying tool according to a preferred embodiment of the present invention;

FIG. 3 is a schematic structural view of a welding wire shear feeding tool according to a preferred embodiment of the present invention;

Fig. 4 is a schematic structural diagram of a feeding module according to a preferred embodiment of the present invention.

Detailed Description

In order to further explain the technical scheme of the invention, the invention is explained in detail by specific examples.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientation or positional relationship based on that shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus 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 invention. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

Referring to fig. 1 to 4, a preferred embodiment of a welding wire feeding mechanism for solar panel production according to the present invention includes a welding wire conveying tool 100 and a welding wire shearing and feeding tool 200; the welding wire conveying tool 100 is used for conveying welding wires on a welding wire reel 1 and comprises a paying-off bracket 2 and a guiding bracket 3; a paying-off rod 21 is arranged on one side of the paying-off support 2, and a first positioning pulley 22, a decelerating roller 23 and a stretching assembly 24 are arranged on the other side of the paying-off support 2 from top to bottom; the upper part of the guide bracket 3 is provided with a second positioning pulley 31, a compacting module 32 and a correcting module 33 from left to right; the wire reel 1 is in running fit on the paying-off rod 21, and the welding wire drawn from the wire reel 1 sequentially bypasses the first positioning pulley 22, the stretching assembly 24, the reduction roller 23 and the second positioning pulley 31 and then sequentially passes through the compacting module 32 and the correcting module 33; the welding wire shearing and feeding tool 200 comprises a shearing module 201 and a feeding module 202; the shear module 201 comprises a shear support 4; and a shearing assembly 5, the shearing assembly 5 being mounted on the shearing support 4 for shearing the welding wire moving through the shearing assembly 5; the feeding module 202 comprises a first translation mechanism 6; the feeding support 7 is arranged on the first translation mechanism 6; a feeding rotating shaft 8, wherein the feeding rotating shaft 8 is rotatably arranged at the upper part of the feeding support 7; the clamping module 9 is arranged on the feeding rotating shaft 8 and used for clamping or loosening welding wires; and the feeding motor 10 is arranged on the feeding support 7, and an output shaft of the feeding motor 10 is in transmission connection with the feeding rotating shaft 8 through a transmission belt.

Before use, the wire reel 1 is placed on the paying-off rod 21, the welding wire is drawn out, the drawn welding wire sequentially bypasses the first positioning pulley 22, the stretching assembly 24, the decelerating roller 23 and the second positioning pulley 31, the stretching assembly 24 is matched with the first positioning pulley 22 and the decelerating roller 23, the wound welding wire has stretching and tightening effects, then sequentially passes through the compression module 32 and the correction module 33, the correction module 33 corrects the welding wire to avoid bending of the welding wire, and after the welding wire passes out of the correction module 33, the welding wire is pulled into the shearing assembly 5 and outwards extends through the shearing assembly 5, and the welding wire is compressed and fixed by the compression module 32; one end of the welding wire shearing and feeding tool 200 faces the welding wire conveying tool 100, the other end faces the solar panel welding platform, and the feeding motor 10 rotates the feeding rotating shaft 8 through a transmission belt, so that the clamping module 9 rotates along with the feeding rotating shaft 8 and faces the welding wire; when the welding machine is used, the small solar panel to be processed is firstly placed on a welding platform, and then the first translation mechanism 6 moves the feeding support 7 towards the welding wire, so that the clamping module 9 can clamp the welding wire; thereafter, the compacting module 32 first loosens the welding wire, the first translation mechanism 6 then moves the feeding support 7 towards the welding platform by a set distance, and pulls the welding wire out by a set distance (the set distance is the length of the welding wire cut by the shearing assembly 5 is required for welding); afterwards, the compacting module 32 compacts and fixes the welding wire again, the shearing assembly 5 cuts off the welding wire, the first translation mechanism 6 moves the feeding support 7 towards the welding platform, the feeding motor 10 reversely rotates the feeding rotating shaft 8 through the transmission belt, so that the clamping module 9 clamping the welding wire reversely rotates along with the feeding rotating shaft 8 and places the welding wire on the small solar panel to be processed, and at the moment, the clamping module 9 is loosened; and repeating the steps, and continuously drawing out, cutting off and placing the welding wire on the small solar panel to be processed.

The invention is characterized in that the pay-off bracket 2, the guide bracket 3, the shearing module 201 and the feeding module 202 are arranged, so that the welding wire can be automatically conveyed and corrected, the welding wire can be automatically sheared and placed on a small solar panel to be welded, the solar panel is produced by matching with automatic solar panel production equipment, and the production efficiency of the solar panel is improved.

The pay-off stand 2 comprises a stand base 25, a front stand 26, a top stand 27 and an inclined stand group 28, wherein two ends of the front stand 26 are respectively connected to the front ends of the stand base 25 and the top stand 27, two ends of the inclined stand group 28 are respectively connected to the rear ends of the stand base 25 and the top stand 27, the pay-off stand 21 is arranged on the inclined stand group 28, and the first positioning pulley 22, the decelerating roller 23 and the stretching assembly 24 are arranged on the front stand 26.

The oblique strut set 28 includes two oblique struts 281, two opposite sides of the two oblique struts 281 are used for installing the pay-off rod 21, and a receiving groove 282 for placing the pay-off rod 21 is formed on the opposite side of the two oblique struts 281.

The two oblique struts 281 of the oblique strut group 28 are provided with the accommodating groove 282, so that the pay-off rod 21 can be arranged on both sides and in the middle of the two oblique struts 281, and when the wire reel 1 needs to be replaced, the pay-off rod 21 is only required to be taken down and a new wire reel 1 is sleeved, and the wire reel has the advantages of being simple in structure and convenient to use.

The stretching assembly 24 comprises a guide upright pole 241, and the guide upright pole 241 is arranged on the paying-off bracket 2; a spring 242 and a gravity block 243, wherein the gravity block 243 is movably matched on the guide upright 241 and is connected to the pay-off bracket 2 through the spring 242; and a tension pulley 244, the tension pulley 244 being installed at one side of the gravity block 243.

When the welding wire stretcher is used, the welding wire sequentially bypasses the first positioning pulley 22, the stretching pulley 244, the speed reduction roller 23 and the second positioning pulley 31, and the stretching pulley 244 can stretch and tighten the welding wire all the time under the cooperation of the spring 242 and the gravity block 243.

The compressing module 32 comprises a compressing seat 321, and the compressing seat 321 is arranged on the guide bracket 3; the pressing device comprises a pressing bracket 322 and a pressing cylinder 323, wherein the pressing cylinder 323 is arranged on the pressing bracket 322 and is positioned above a pressing seat 321; and a compressing block 324, the compressing block 324 is installed on a piston rod of the compressing cylinder 323. In use, the compressing cylinder 323 drives the compressing block 324 to move up and down through the piston rod, so that the compressing block 324 compresses and fixes the welding wire on the compressing seat 321, or loosens the welding wire, so that the welding wire can be pulled out.

The correction module 33 includes a correction seat 331, and a correction through groove 3311 is provided on the correction seat 331; and a correction block 332, the correction block 332 being detachably mounted at an end of the correction seat 331. When in use, the welding wire passes through the correction through groove 3311, and the inner wall of the correction through groove 3311 and the correction block 332 at the end part have the function of limiting and correcting the welding wire.

The guide bracket 3 is also provided with a supporting component 34, the supporting component 34 is positioned between the second positioning pulley 31 and the compacting module 32, the supporting component 34 comprises a supporting seat 341 and a supporting rotating shaft 342, and the supporting rotating shaft 342 is in rotating fit on the supporting seat 341; and a supporting wheel 343, the supporting wheel 343 being mounted on the supporting rotation shaft 342. Through being equipped with supporting component 34, supporting wheel 343 on the support pivot 342 has the effect of supporting the welding wire, avoids the welding wire sagging, and the welding wire draws out in-process, and supporting wheel 343 also can rotate, avoids welding wire and supporting wheel 343 direct friction to cause wearing and tearing.

A soldering component 35 is also mounted on the guide bracket 3, the soldering component 35 is close to the second positioning pulley 31, the soldering component 35 comprises a soldering flux box body 351, and the soldering flux box body 351 is mounted on the guide bracket 3; the two liquid-absorbing cottons 352 are overlapped and then placed in the soldering flux box 351, and the upper end face of the liquid-absorbing cottons 352 below is slightly higher than the upper end face of the soldering flux box 351; and a flux cover 353, the flux cover 353 covering the flux case 351.

When the soldering flux box is used, the soldering flux can be poured into the soldering flux box body 351, the liquid suction cotton 352 also absorbs the soldering flux, when the soldering wire passes through the liquid suction cotton 352, the soldering flux can be soaked into the soldering flux, and the soldering flux can assist subsequent soldering; the soldering flux box body 351 is matched with the soldering flux box cover 353, so that soldering flux volatilization can be avoided; the liquid absorbing cotton 352 can absorb more soldering flux, so that soldering wires can be fully soaked, and frequent addition of soldering flux by workers can be avoided.

The shear assembly 5 includes a lower guide post 51; a cutter shearing seat 52, the cutter shearing seat 52 being movably fitted on the lower guide post 51; a first cylinder 53, the first cylinder 53 being mounted on the shear support 4, the piston rod of the first cylinder 53 being connected to the cutter shear mount 52; an upper guide post 54; the cutter mounting seat 55, the cutter mounting seat 55 is movably matched on the upper guide post 54; the cutter 56, the cutter 56 is mounted on the cutter mounting seat 55 and is in movable shearing fit with the cutter shearing seat 52; and a second cylinder 57, the second cylinder 57 being mounted on the shear support 4, the piston rod of the second cylinder 57 being connected to the cutter mount 55.

When the welding wire cutting machine is used, welding wires pass through the cutter shearing seat 52 and the cutter mounting seat 55, and when the welding wires are to be sheared, the first air cylinder 53 and the second air cylinder 57 respectively and synchronously control the relative movement of the cutter shearing seat 52 and the cutter mounting seat 55 until the cutter 56 is matched with the cutter shearing seat 52 to cut off the welding wires.

The cutter 56 and the cutter holder 52 are elongated. It should be noted that, the number of the clamping modules 9 depends on how many welding stations are provided on the welding platform and how many welding wires are required to be welded at each welding station, so the long cutter 56 and the cutter shearing seat 52 have the advantage of long shearing working surface, and can shear a plurality of welding wires at the same time.

The first translation mechanism 6 includes a slider 61; the sliding block 62, the upper portion of the sliding block 62 is fixed at the bottom of the feeding support 7, and the lower portion of the sliding block 62 is in sliding fit on the sliding seat 61; and a third cylinder 63, the piston rod of the third cylinder 63 being connected to the feed support 7. When the welding wire feeding device is used, the feeding support 7 is driven by the third air cylinder 63 to move back and forth on the sliding seat 61 through the piston rod, so that the welding wire is matched with the movement.

The clamping module 9 comprises a clamping seat 91, and the clamping seat 91 is arranged on the feeding rotating shaft 8; the double-piston-rod air cylinder 92, the double-piston-rod air cylinder 92 is installed on the clamping seat 91, and two piston rods in the double-piston-rod air cylinder 92 relatively move; and two clamping plates 93, one ends of the two clamping plates 93 are respectively connected to two piston rods of the double-rod cylinder, and the other ends of the two clamping plates 93 are respectively provided with clamping parts 931 for clamping welding wires.

In use, the double-piston rod cylinder 92 drives the two clamping plates 93 to move relatively or oppositely through the two piston rods, so that the two clamping parts 931 on the two clamping plates 93 can clamp or unclamp welding wires.

The clamping portion 931 of one of the clamping plates 93 is inclined downward, the clamping portion 931 of the other clamping plate 93 is inclined upward, and the distal ends of the two clamping portions 931 are respectively provided with a clamping plane. When the two clamping plates 93 move relatively, the welding wire can be slightly close to each other, so that the welding wire can be firmly clamped by the clamping planes on the two clamping parts 931, and the welding wire can be prevented from loosening and falling.

The foregoing description of specific exemplary embodiments of the invention has been presented for the purposes of illustration and description, but is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teachings. The exemplary embodiments were chosen and described in order to explain the principles of the invention and its practical application to thereby enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications, as may be suited to the particular use contemplated by one skilled in the art without departing from the scope of the invention.

Claims (7)

1. A welding wire feed mechanism for solar panel production, its characterized in that: the welding wire feeding mechanism comprises a welding wire conveying tool and a welding wire shearing and feeding tool;

The welding wire conveying tool is used for conveying welding wires on a welding wire reel and comprises a paying-off bracket and a guiding bracket; a paying-off rod is arranged on one side of the paying-off support, and a first positioning pulley, a decelerating roller and a stretching assembly are arranged on the other side of the paying-off support from top to bottom;

The upper part of the guide bracket is provided with a second positioning pulley, a compression module and a correction module from left to right; the welding wire reel is in running fit on the paying-off rod, and welding wires drawn out of the welding wire reel sequentially bypass the first positioning pulley, the stretching assembly, the speed reduction roller and the second positioning pulley and then sequentially pass through the compression module and the correction module;

the welding wire shearing and feeding tool comprises a shearing module and a feeding module;

The shear module comprises

Shearing a support;

And a shearing assembly mounted on the shearing support for shearing welding wire moving through the shearing assembly;

The feeding module comprises

A first translation mechanism;

The feeding support is arranged on the first translation mechanism;

the feeding rotating shaft is rotatably arranged at the upper part of the feeding support;

The clamping module is arranged on the feeding rotating shaft and used for clamping or loosening the welding wire;

The feeding motor is arranged on the feeding support, and an output shaft of the feeding motor is in transmission connection with the feeding rotating shaft through a transmission belt;

The stretching assembly comprises

The guide vertical rod is arranged on the paying-off bracket;

The gravity block is movably matched with the guide vertical rod and is connected to the paying-off bracket through the spring;

And a tension pulley mounted at one side of the gravity block;

The compaction module comprises

The compressing seat is arranged on the guide bracket;

the pressing device comprises a pressing bracket and a pressing cylinder, wherein the pressing cylinder is arranged on the pressing bracket and is positioned above a pressing seat; the compressing block is arranged on a piston rod of the compressing cylinder;

The correction module comprises

The correction seat is provided with a correction through groove;

And the correction block is detachably arranged at the end part of the correction seat.

2. The welding wire feeding mechanism for solar panel production of claim 1, wherein: the paying-off support comprises a support base, a front support rod, a top support rod and an inclined support rod group, wherein two ends of the front support rod are respectively connected to the front ends of the support base and the top support rod, two ends of the inclined support rod group are respectively connected to the rear ends of the support base and the top support rod, the paying-off rod is arranged on the inclined support rod group, and the first positioning pulley, the speed reduction roller and the stretching assembly are arranged on the front support rod;

The oblique branch group includes two oblique branches, and two oblique branch both sides that are on the back of each other are used for installing the unwrapping wire pole, and two opposite sides of oblique branch are equipped with the storage tank that is used for placing the unwrapping wire pole.

3. The welding wire feeding mechanism for solar panel production of claim 1, wherein: the guide bracket is also provided with a supporting component, the supporting component is positioned between the second positioning pulley and the compaction module, and the supporting component comprises

The support rotating shaft is in rotating fit with the support seat;

and the supporting wheel is arranged on the supporting rotating shaft.

4. The welding wire feeding mechanism for solar panel production of claim 1, wherein: the guide bracket is also provided with a welding assisting assembly, the welding assisting assembly is close to the second positioning pulley, and the welding assisting assembly comprises

The soldering flux box body is arranged on the guide bracket;

the two liquid-absorbing cottons are overlapped and then placed in the soldering flux box body, and the upper end face of the liquid-absorbing cottons below the liquid-absorbing cottons is slightly higher than the upper end face of the soldering flux box body;

and the soldering flux box cover is covered on the soldering flux box body.

5. The welding wire feeding mechanism for solar panel production of claim 1, wherein: the shear assembly comprises

A lower guide post;

the cutter shearing seat is movably matched with the lower guide post;

The first cylinder is mounted on the shearing support, and a piston rod of the first cylinder is connected to the cutter shearing seat;

an upper guide post;

The cutter mounting seat is movably matched with the upper guide post;

the cutter is arranged on the cutter mounting seat and is in movable shearing fit with the cutter shearing seat;

And a second cylinder mounted on the shear support, a piston rod of the second cylinder being connected to the cutter mount.

6. The welding wire feeding mechanism for solar panel production of claim 1, wherein: the first translation mechanism comprises

A slide;

the upper part of the sliding block is fixed at the bottom of the feeding support, and the lower part of the sliding block is in sliding fit with the sliding seat;

And a piston rod of the third cylinder is connected to the feeding support.

7. The welding wire feeding mechanism for solar panel production of claim 1, wherein: the clamping module comprises

The clamping seat is arranged on the feeding rotating shaft;

The double-piston-rod air cylinder is arranged on the clamping seat, and two piston rods in the double-piston-rod air cylinder relatively move;

the welding wire clamping device comprises a double-rod cylinder, two clamping plates, a welding wire clamping device and a welding wire clamping device, wherein one ends of the two clamping plates are respectively connected to two piston rods of the double-rod cylinder, and clamping parts for clamping welding wires are respectively arranged at the other ends of the two clamping plates;

the clamping part of one clamping plate is inclined downwards, the clamping part of the other clamping plate is inclined upwards, and the tail ends of the two clamping parts are respectively provided with a clamping plane.