CN216326461U - Full-automatic pvc circuit board bonding wire production line - Google Patents

Abstract

The utility model relates to a full-automatic pvc circuit board welding line production line, which comprises a processing platform and a processing jig assembly, wherein the processing platform is provided with a processing conveying line, and a pvc circuit board welding line spot welding mechanism, a pvc circuit board welding line cutting mechanism, a pvc circuit board welding line clamping mechanism and a jig removing mechanism are sequentially arranged on the processing platform at the side part of the processing conveying line along the conveying direction of the processing conveying line; the processing jig assembly comprises a bottom die and a jig plate. The PVC circuit board is placed through the bottom die and the jig plate, the electric lead coil, the electric lead strip and the PVC circuit board vertically correspond to each other, in the process of processing and conveying the conveying line, the electric lead strip and PVC circuit board spot welding process, the residual electric lead cutting process, the residual electric lead clamping process and the jig plate removing process are sequentially realized, the full-automatic and intelligent PVC board electric lead welding process is constructed, and the PVC circuit board electric lead welding process is high in speed, high in efficiency and high in yield.

Description

Full-automatic pvc circuit board bonding wire production line

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of PVC circuit board welding, in particular to a full-automatic PVC circuit board welding line production line.

[ background of the utility model ]

The traditional PVC circuit board adopts a manual welding mode, and the electric lead is welded on a pin (welding leg) of the PVC circuit board through an electric soldering iron. Manual welding is generally divided into five steps: step one, preparing welding: the left hand holds the welding wire and the right hand holds the soldering iron to enter a standby welding state. Step two, heating the weldment: the soldering iron head is leaned on the joint of the two welding parts to heat the whole welding part. Step three, feeding welding wires: when the soldering surface of the soldering element is heated to-a certain temperature, the solder wire contacts the soldering element from the opposite side of the soldering iron. Step four, removing the welding wire: immediately after the wire melted-quantified, the wire was removed to the upper left 45 degrees. Step five, removing the soldering iron: and after the soldering tin infiltrates the welding position of the welding pad and the welding part, moving the soldering iron to the upper right direction by 45 degrees, and finishing welding.

The welding quality of manual welding depends on the proficiency and concentration of workers, the labor intensity of the workers is high, attention needs to be focused, fatigue is easy to occur, personal safety accidents such as scalding of an electric iron easily occur, and working diseases such as smoke and waste gas generated by the electric iron during welding easily cause respiratory diseases.

In view of the above problems, the applicant has proposed a solution.

[ Utility model ] content

The utility model aims to overcome the defects of the prior art and provides a full-automatic pvc circuit board bonding wire production line.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a full-automatic pvc circuit board wire welding production line comprises a processing platform and a processing jig assembly, wherein the processing platform is provided with a processing conveying line, and a pvc circuit board wire welding spot welding mechanism, a pvc circuit board wire welding line cutting mechanism, a pvc circuit board wire clamping mechanism and a jig removing mechanism are sequentially arranged on the processing platform at the side part of the processing conveying line along the conveying direction of the processing conveying line; the processing jig assembly comprises a bottom die and a jig plate, wherein a placing area for placing the PVC circuit board is arranged on the bottom die, the jig plate is arranged on the bottom die, an electric lead coil built-in groove is upwards bulged at the bottom of the jig plate, electric lead fixing parts are arranged on the edges of two sides of the jig plate and used for fixing electric leads extending out of the electric lead coil built-in groove and extending to the edge of the side of the jig plate; the welding wire spot welding mechanism of the pvc circuit board is used for welding the electric wires extending from the bottom of the jig board to two sides to the pvc circuit board; the pvc circuit board wire welding and cutting mechanism is used for cutting residual electric leads welded on the processing jig assembly; the welding wire clamping mechanism of the pvc circuit board is used for clamping out the residual electric leads cut on the processing jig assembly; the jig removing mechanism is used for jacking and removing the jig plate on the processing jig assembly.

In a further improvement, the welding wire spot welding mechanism for the pvc circuit board comprises a spot welding area arranged on the side of the processing conveying line, a first transfer device for transferring the processing jig assembly into the spot welding area or on the processing conveying line, and a spot welding device for spot welding an electric lead on the processing jig assembly onto the pvc circuit board.

In a further improvement, the pvc circuit board wire bonding and cutting mechanism comprises a wire cutting area, a second transfer device for conveying the processing jig assembly into the wire cutting area or on the processing conveying line, and a wire cutting device for cutting and separating the waste electric wires on the processing jig assembly from the welding points.

In a further improvement, the welding wire clamping mechanism of the pvc circuit board comprises a start-stop device for starting or stopping the operation of the processing conveying line, and a wire clamping device for clamping out the waste electric wires which are cut off on the processing jig assembly and are arranged at the edge of the jig plate.

In a further improvement, the jig removing mechanism comprises a removing area, a third transfer device for transferring the processing jig assembly on the processing conveying line into the removing area, a jacking device for jacking the jig plate from the bottom die to the upper part through the bottom die in the removing area, and a removing device for clamping and removing the jig plate.

In a further improvement, the first transfer device, the second transfer device and the third transfer device are respectively a pair of pushing frames and pushing cylinders for respectively controlling the pushing frames, the pair of pushing frames are symmetrically distributed on two sides of the processing conveying line, and one of the pushing frames is located outside the spot welding area/the tangent line area/the removing area.

In a further improvement scheme, the spot welding device comprises a vertical frame arranged on the processing platform, wherein a horizontal cross frame is arranged on the vertical frame, and the horizontal cross frame is parallel to the processing conveying line in the overlooking direction; the spot welding device comprises a horizontal cross frame, a spot welding auxiliary frame and a control device, wherein the horizontal cross frame is provided with the spot welding frame which can horizontally move on the horizontal cross frame, and the spot welding auxiliary frame is controllably moved vertically and horizontally along the spot welding frame; and a pair of symmetrical spot welding fixtures is arranged on the spot welding subframe, and spot welding electrodes are arranged in the spot welding fixtures.

In a further improvement scheme, the thread cutting device comprises a vertical frame arranged on the processing platform, a horizontal cross frame is arranged on the vertical frame, and the horizontal cross frame is parallel to the processing conveying line in the overlooking direction; the horizontal cross frame is provided with a cutting frame, and the cutting frame can move horizontally along the horizontal cross frame in a controllable manner; the cutting auxiliary frame is arranged on the cutting frame and can controllably move vertically and horizontally along the cutting frame; and a cutting vertical clamp is arranged on the cutting auxiliary frame, and a cutting knife is arranged at the bottom of the cutting vertical clamp.

In a further improvement scheme, the thread clamping device comprises a pair of bases symmetrically distributed on the outer side of the processing conveying line, a sliding vertical frame which can slide on the bases in a controllable mode to get close to or keep away from the processing conveying line is arranged on the bases, a pressing table and a pressing driving portion which is used for controlling the pressing table to lift or press downwards are arranged on the sliding vertical frame, and the pressing table is located above the jig plate when the sliding vertical frame is close to and attached to the side edge of the processing conveying line.

In a further improvement, the removing device comprises an upper cross beam which is transversely arranged above the processing conveying line, a plate frame which can be controlled to move left and right on the upper cross beam is arranged on the upper cross beam, a driving air cylinder is arranged on the plate frame, a clamp support is connected to the bottom of an air cylinder rod of the driving air cylinder, and a clamp used for clamping a jig plate is arranged on the clamp support.

Compared with the prior art, the utility model has the beneficial effects that: the PVC circuit board is placed through the bottom die and the jig plate, the electric lead coil, the electric lead strip and the PVC circuit board vertically correspond to each other, in the process of processing and conveying the conveying line, the electric lead strip and PVC circuit board spot welding process, the residual electric lead cutting process, the residual electric lead clamping process and the jig plate removing process are sequentially realized, the full-automatic and intelligent PVC board electric lead welding process is constructed, and the PVC circuit board electric lead welding process is high in speed, high in efficiency and high in yield.

The utility model is described in further detail below with reference to the following detailed description and accompanying drawings:

[ description of the drawings ]

FIG. 1 is a first perspective view of an embodiment of the present invention;

FIG. 2 is a second perspective view of the embodiment of the present invention;

fig. 3 is a first schematic perspective view of a first wire-bonding spot-welding mechanism for a pvc circuit board according to an embodiment of the present invention;

fig. 4 is a second schematic perspective view of a second wire-bonding spot-welding mechanism for a pvc circuit board according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a wire-bonding spot-welding mechanism for a pvc circuit board according to an embodiment of the present invention;

fig. 6 is a first schematic perspective view of a wire-bonding and wire-cutting mechanism of a pvc circuit board according to an embodiment of the present invention;

fig. 7 is a second schematic perspective view of a wire bonding and cutting mechanism of a pvc circuit board according to an embodiment of the present invention;

fig. 8 is a first schematic perspective view of a bonding wire clamping mechanism of a pvc circuit board according to an embodiment of the present invention;

fig. 9 is a first schematic perspective view of a jig removing mechanism according to an embodiment of the present invention;

fig. 10 is a second schematic perspective view of the jig removing mechanism according to the embodiment of the present invention;

fig. 11 is a first schematic perspective view of a processing jig assembly according to an embodiment of the present invention;

fig. 12 is a second schematic perspective view of the processing jig assembly according to the embodiment of the utility model;

FIG. 13 is a first schematic structural diagram of a processing fixture assembly according to an embodiment of the present invention;

fig. 14 is a second schematic structural diagram of a processing fixture assembly according to an embodiment of the present invention.

[ detailed description ] embodiments

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout.

The orientation shown in the drawings is not to be construed as limiting the specific scope of the utility model, but is for the best understanding of the preferred embodiments only, and changes in location or addition of numbers or structural simplifications may be made to the product parts shown in the drawings.

The relation of "connected" between the components shown in the drawings and described in the specification can be understood as fixedly connected or detachably connected or integrally connected; the connecting elements can be directly connected or connected through an intermediate medium, and persons skilled in the art can understand the connecting relation according to specific conditions, and can use the connecting elements in a screwed connection or riveting connection or welding connection or clamping connection or embedding connection mode to replace different embodiments in a proper mode.

The terms of orientation such as up, down, left, right, top, bottom, and the like in the description and the orientation shown in the drawings, may be used for direct contact or contact with each other through another feature therebetween; above may be directly above and obliquely above, or it simply means above the other; other orientations may be understood by analogy.

The material for manufacturing the solid-shaped component shown in the specification and the drawings can be a metal material or a non-metal material or other composite materials; the machining processes used for components having solid shapes can be stamping, forging, casting, wire cutting, laser cutting, casting, injection molding, digital milling, three-dimensional printing, machining, and the like; one skilled in the art can select the materials and the manufacturing process adaptively or in combination according to different processing conditions, cost and precision.

The utility model relates to a full-automatic pvc circuit board welding line production line, as shown in fig. 1 to 14, comprising a processing platform 10 and a processing jig assembly 20, wherein the processing platform 10 is provided with a processing conveying line 30, and a pvc circuit board welding line spot welding mechanism 40, a pvc circuit board welding line cutting mechanism 50, a pvc circuit board welding line clamping mechanism 60 and a jig removing mechanism 70 are sequentially arranged on the processing platform 10 at the side part of the processing conveying line 30 along the conveying direction of the processing conveying line 30; the processing jig assembly 20 comprises a bottom die 21 and a jig plate 22, wherein a placing area for placing a PVC circuit board 23 is arranged on the bottom die 21, the jig plate 22 is arranged on the bottom die 21, an electric lead coil built-in groove is formed in the bottom of the jig plate 22 in an upward protruding mode, electric lead fixing portions 24 are arranged on the edges of two sides of the jig plate 22, and the electric lead fixing portions 24 are used for fixing electric leads extending out of the electric lead coil built-in groove and extending to the edges of the side portions of the jig plate 22; the welding wire spot welding mechanism 40 of the pvc circuit board is used for welding the electric wires extending from the bottom of the jig plate 22 to the pvc circuit board 23; the pvc circuit board wire welding and cutting mechanism 50 is used for cutting the residual electric wires welded on the processing jig assembly 20; the pvc circuit board wire bonding and clamping mechanism 60 is used for clamping out the residual electrical conductors cut on the processing jig assembly 20; the jig removing mechanism 70 is used for lifting up and removing the jig plate 22 on the processing jig assembly 20.

Before use, firstly, the electric lead coil is placed in the electric lead coil built-in groove of the jig plate 22, then, the electric leads respectively extend towards the edges of two sides of the bottom of the jig plate 22 and are fixed on the electric lead fixing part 24, then, the PVC circuit board 23 is placed on the bottom die 21, the jig plate 22 is covered on the PVC circuit board 23, and the processing jig assemblies 20 are placed on the processing conveying line 30 one by one; when passing through the PVC circuit board wire-welding spot-welding mechanism 40, the electrical leads led out from the electrical lead coils to both sides are welded to the PVC circuit board 23, the electrical lead coils are placed on the PVC circuit board 23, and the PVC circuit board wire-welding spot-welding mechanism 40 gradually welds all the electrical leads on the jig plate 22 to the PVC circuit board 23 to complete a spot-welding operation of the PVC circuit board 23; when the PVC circuit board passes through the welding wire and cutting mechanism 50 of the PVC circuit board, the tail end of the electric lead led out from the electric lead coil is fixed on the electric lead fixing part 24, so that after spot welding is finished, a section of electric lead is connected between a welding point on the PVC circuit board 23 and the electric lead fixing part 24, the PVC circuit board is required to be cut at the welding point by the welding wire and cutting mechanism 50 of the PVC circuit board, and the connection relation between the PVC circuit board 23 and the jig plate 22 is separated; when the residual electric wires exist on the electric wire fixing part 24 at the edge of the side part of the jig plate 22 due to the cutting of the front end when the welding wire clamping mechanism 60 of the pvc circuit board passes through, the residual electric wires are clamped out by the welding wire clamping mechanism 60 of the pvc circuit board; when the jig is removed by the jig removing mechanism 70, the jig plate 22 on the bottom die 21 is jacked up and then removed, finally the bottom die 21 is taken down from the processing conveyor line, and the PVC circuit board 23 with the welded wires completed is taken down from the bottom die 21, so that the whole automatic PVC circuit board electrical conductor automatic welding process is completed.

The PVC circuit board electric lead welding process has the advantages that the PVC circuit board 23 and the electric lead coil are placed through the bottom die 21 and the jig plate 22, the electric lead strip corresponds to the PVC circuit board 23 up and down, in the process of processing and conveying the PVC circuit board 30, the spot welding process of the electric lead strip and the PVC circuit board 23, the cutting process of the residual electric lead, the clamping process of the residual electric lead and the removing process of the jig plate 22 are sequentially realized, the full-automatic and intelligent PVC circuit board electric lead welding process is constructed, the speed is high, the efficiency is high, and the yield is high.

In an embodiment, as shown in fig. 1, 2, 3, 4, and 5, the pvc circuit board wire-welding mechanism 40 includes a spot-welding area 41 disposed at a side of the processing conveyor line 30, a first transfer device for transferring the processing jig assembly 20 to the spot-welding area 41 or the processing conveyor line 30, and a spot-welding device for spot-welding the electrical wires on the processing jig assembly 20 to the pvc circuit board 23. When the processing jig assembly 20 passes through the spot welding area 41 on the processing conveying line, the processing jig assembly is conveyed to the spot welding area 41 by the first conveying device, an induction device is generally arranged at the front end of the spot welding area 41, the spot welding device performs spot welding on the processing jig assembly 20 located in the spot welding area 41, and after spot welding is completed, the processing jig assembly is conveyed to the processing conveying line 30 again by the first moving device. Specifically, the spot welding device comprises a vertical frame arranged on the processing platform 10, wherein a horizontal cross frame 42 is arranged on the vertical frame, and the horizontal cross frame 42 is parallel to the processing conveying line 30 in the overlooking direction; the horizontal cross frame 42 is provided with a spot welding frame 43 which can move horizontally on the horizontal cross frame 42, the spot welding frame 43 is provided with a spot welding subframe 44, and the spot welding subframe 44 can controllably move vertically and horizontally along the spot welding frame 43; a pair of symmetrical spot welding fixtures 45 is arranged on the spot welding subframe 44, spot welding electrodes are arranged in the spot welding fixtures 45, and the spot welding electrodes move in at least three different plane directions under the control of the spot welding electrodes to execute the movement and spot welding work.

In one embodiment, as shown in fig. 6 and 7, the pvc circuit board wire bonding and cutting mechanism 50 includes a wire cutting area 51, a second transfer device for transferring the processing tool assembly 50 to the wire cutting area 51 or the processing line 30, and a wire cutting device for cutting and separating the waste electrical wires and the solder joints on the processing tool assembly 20. When the processing jig assembly 20 passes through the tangent area 51 on the processing conveying line 30, the tangent area 51 is conveyed by the second conveying device, then the tangent device performs tangent operation on the processing jig assembly 20 positioned in the tangent area 51, and after the tangent is completed, the processing conveying line 30 is conveyed again by the second moving device. Specifically, the thread cutting device comprises a vertical frame arranged on the processing platform 10, a horizontal cross frame 42 is arranged on the vertical frame, and the horizontal cross frame 42 is parallel to the processing conveying line in the overlooking direction; a cutting frame 52 is arranged on the horizontal cross frame 42, and the cutting frame 52 can be controlled to move horizontally along the horizontal cross frame 42; a cutting sub-frame 53 is arranged on the cutting frame 52, and the cutting sub-frame 53 can controllably move vertically and horizontally along the cutting frame 52; the cutting auxiliary frame 53 is provided with a cutting vertical clamp 54, the bottom of the cutting vertical clamp 54 is provided with a cutting knife 55, and the cutting knife 55 is controlled to move in at least three different plane directions to execute movement and tangent line work.

In an embodiment, as shown in fig. 8, the pvc circuit board wire clamping mechanism 60 includes a start/stop device for starting or stopping the operation of the processing conveying line 30, and a wire clamping device for clamping the cut waste electrical wires disposed at the edge of the jig plate 22 on the processing jig assembly 20; the wire clamping device comprises a pair of bases 61 symmetrically distributed on the outer side of the processing conveying line 30, sliding vertical frames 62 controllably sliding on the bases 61 to get close to or be far away from the processing conveying line are arranged on the bases 61, pressing tables 63 and downward pressing driving portions 64 controlling the pressing tables 63 to lift up or press down are arranged on the sliding vertical frames 62, and the pressing tables 63 are located above the jig plates 22 when the sliding vertical frames 62 get close to and stick close to the side edges of the processing conveying line 30. Under the control of the start-stop device, the machining conveying line 30 stops running, the sliding vertical frame 62 is controlled to slide to the outer side of the machining conveying line 30, then the pressing table 63 is driven to press by the pressing driving portion 64, the sliding vertical frame 62 slides to the outer side in a controllable mode, the pressing table 63 presses the residual electric wire to be clamped and pulled outwards, the residual electric wire clamp is pulled out of the machining conveying line, and the residual electric wire clamp is pulled out after the operation is repeated for multiple times.

In an embodiment, as shown in fig. 9 and 10, the jig removing mechanism 70 includes a removing area 71, a third transferring device for transferring the processing jig assembly 20 on the processing line 30 into the removing area 71, a jacking device for jacking the jig plate 22 in the removing area 71 from the bottom of the bottom mold 21 up through the bottom mold 21, and a removing device for clamping and removing the jig plate 22; the removing device comprises an upper cross beam 72 which transversely extends above the processing and conveying line 30, a plate frame 73 which can controllably move left and right on the upper cross beam 72 is arranged on the upper cross beam 72, a driving air cylinder 74 is arranged on the plate frame 73, a clamp support 75 is connected to the bottom of an air cylinder rod of the driving air cylinder 74, and a clamp 76 used for clamping the jig plate 22 is arranged on the clamp support 75. When the processing jig assembly 20 passes through the removing area 71 on the processing conveying line 30, the processing jig assembly is conveyed to the removing area 71 by the third conveying device, then the jacking device arranged in the removing area 71 jacks up the jig plate 22 on the bottom die 71, the clamp 73 moves to the upper side of the jig plate 22 under the control and then clamps the jig plate 22 downwards, then the jig plate 22 is moved to other set placing areas, and after the jig plate 22 is clamped away, the bottom die 21 is conveyed to the processing conveying line 30 again by the third conveying device.

In an embodiment, as shown in fig. 1 to 10, the first transfer device, the second transfer device, and the third transfer device each include a pair of pushing frames 80, and pushing cylinders 90 respectively controlling the pushing frames 80, the pair of pushing frames 80 are symmetrically distributed on both sides of the processing line 30, and one of the pushing frames 80 is located outside the spot welding area 41/the tangent area 51/the removing area 71.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the utility model as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims (10)

1. A full-automatic pvc circuit board welding line production line is characterized by comprising a processing platform and a processing jig assembly, wherein the processing platform is provided with a processing conveying line, and a pvc circuit board welding line spot welding mechanism, a pvc circuit board welding line cutting mechanism, a pvc circuit board welding line clamping mechanism and a jig removing mechanism are sequentially arranged on the processing platform at the side part of the processing conveying line along the conveying direction of the processing conveying line; the processing jig assembly comprises a bottom die and a jig plate, wherein a placing area for placing the PVC circuit board is arranged on the bottom die, the jig plate is arranged on the bottom die, an electric lead coil built-in groove is upwards bulged at the bottom of the jig plate, electric lead fixing parts are arranged on the edges of two sides of the jig plate and used for fixing electric leads extending out of the electric lead coil built-in groove and extending to the edge of the side of the jig plate; the welding wire spot welding mechanism of the pvc circuit board is used for welding the electric wires extending from the bottom of the jig board to two sides to the pvc circuit board; the pvc circuit board wire welding and cutting mechanism is used for cutting residual electric leads welded on the processing jig assembly; the welding wire clamping mechanism of the pvc circuit board is used for clamping out the residual electric leads cut on the processing jig assembly; the jig removing mechanism is used for jacking and removing the jig plate on the processing jig assembly.

2. The fully automatic pvc circuit board wire welding production line according to claim 1, wherein the pvc circuit board wire welding spot welding mechanism includes a spot welding area disposed at a side of the processing conveyor line, a first transfer device for transferring the processing jig assembly to the spot welding area or the processing conveyor line, and a spot welding device for spot welding the electrical wires on the processing jig assembly to the pvc circuit board.

3. The full-automatic pvc circuit board wire bonding production line according to claim 2, wherein the pvc circuit board wire bonding and wire cutting mechanism comprises a wire cutting area, a second transfer device for feeding the processing jig assembly to the wire cutting area or the processing conveying line, and a wire cutting device for cutting and separating the waste electrical wires on the processing jig assembly from the solder joints.

4. The full-automatic pvc circuit board wire bonding production line according to claim 3, wherein the pvc circuit board wire bonding clamping mechanism comprises a start-stop device for starting or stopping the operation of the processing conveyor line, and a wire clamping device for clamping the cut waste electric wires at the edge of the processing jig assembly.

5. The fully automatic pvc circuit board wire bonding line according to claim 4, wherein the jig removing mechanism comprises a removing area, a third transferring device for transferring the processing jig assembly on the processing conveyor line into the removing area, a jacking device for jacking the jig plate from the bottom of the bottom mold up through the bottom mold in the removing area, and a removing device for clamping and removing the jig plate.

6. The full-automatic pvc circuit board wire welding production line according to claim 2, 3 or 5, wherein the first transfer device, the second transfer device and the third transfer device are a pair of pushing frames and pushing cylinders respectively controlling the pushing frames, the pair of pushing frames are symmetrically distributed on two sides of the processing conveying line, and one of the pushing frames is located outside the spot welding area/the cutting line area/the removing area.

7. The full-automatic pvc circuit board wire welding production line according to claim 2, wherein the spot welding device comprises a vertical frame arranged on the processing platform, a horizontal cross frame is arranged on the vertical frame, and the horizontal cross frame is parallel to the processing conveying line in the overlooking direction; the spot welding device comprises a horizontal cross frame, a spot welding auxiliary frame and a control device, wherein the horizontal cross frame is provided with the spot welding frame which can horizontally move on the horizontal cross frame, and the spot welding auxiliary frame is controllably moved vertically and horizontally along the spot welding frame; and a pair of symmetrical spot welding fixtures is arranged on the spot welding subframe, and spot welding electrodes are arranged in the spot welding fixtures.

8. The full-automatic pvc circuit board wire bonding production line according to claim 3, wherein the wire cutting device comprises a vertical frame arranged on the processing platform, a horizontal cross frame is arranged on the vertical frame, and the horizontal cross frame is parallel to the processing conveying line in the overlooking direction; the horizontal cross frame is provided with a cutting frame, and the cutting frame can move horizontally along the horizontal cross frame in a controllable manner; the cutting auxiliary frame is arranged on the cutting frame and can controllably move vertically and horizontally along the cutting frame; and a cutting vertical clamp is arranged on the cutting auxiliary frame, and a cutting knife is arranged at the bottom of the cutting vertical clamp.

9. The full-automatic pvc circuit board wire welding production line according to claim 4, wherein the wire clamping device comprises a pair of bases symmetrically distributed on the outer side of the processing conveyor line, a sliding vertical frame controllably sliding on the bases to get close to or away from the processing conveyor line is arranged on the bases, a pressing table and a downward pressing driving part controlling the pressing table to lift or press downwards are arranged on the sliding vertical frame, and the pressing table is located above the jig plate when the sliding vertical frame is close to and attached to the side edge of the processing conveyor line.

10. The full-automatic pvc circuit board wire welding production line according to claim 5, wherein the removing device comprises an upper cross beam which is transversely spanned above the processing and conveying line, a plate frame which is controllably moved left and right on the upper cross beam is arranged on the upper cross beam, a driving air cylinder is arranged on the plate frame, a clamp support is connected to the bottom of an air cylinder rod of the driving air cylinder, and a clamp for clamping a jig plate is arranged on the clamp support.

Images