CN114406135A

CN114406135A - Multi-shaft tungsten wire winding machine

Info

Publication number: CN114406135A
Application number: CN202210136173.0A
Authority: CN
Inventors: 顾超
Original assignee: Changzhou Chaodi Electrical Appliance Technology Co ltd
Current assignee: Changzhou Chaodi Electrical Appliance Technology Co ltd
Priority date: 2022-02-15
Filing date: 2022-02-15
Publication date: 2022-04-29
Anticipated expiration: 2042-02-15
Also published as: CN114406135B

Abstract

The application relates to a multi-shaft tungsten wire winding machine, which relates to the technical field of wire winding machines and comprises a rack, wherein one side of a wire inlet of the rack is connected with at least one wire inlet wheel group, each wire inlet wheel group comprises two wire inlet supports arranged on the rack, a fixed shaft is connected between the two wire inlet supports, and a plurality of first wire guide wheels are uniformly distributed on the fixed shaft and rotatably connected with the fixed shaft; one side of the frame is provided with a wire wheel group corresponding to the wire feeding wheel group, the wire wheel group comprises a plurality of second wire wheels which are arranged corresponding to the first wire wheels, and the second wire wheels are rotationally arranged; the frame is provided with a winding wheel set corresponding to the wire guide wheel set, the winding wheel set comprises a winding shaft corresponding to the second wire guide wheel, and the winding shaft is rotatably connected with the frame; a telescopic mechanism is arranged in the rack and pushes the winding shaft to repeatedly move towards one side far away from or close to the rack. The winding device has the advantages that the tungsten filaments with the same specification or different specifications are wound simultaneously, the winding efficiency is high, and the effects of energy conservation and environmental protection are achieved.

Description

Multi-shaft tungsten wire winding machine

Technical Field

The invention relates to the field of filament winding machines, in particular to a multi-shaft tungsten filament winding machine.

Background

Currently, when winding a tungsten wire, the tungsten wire is generally wound by a wire winding machine. Present wire winding machine is mostly unipolar wire winding machine, and the project organization is comparatively simple, and for the wire winding efficiency of convenient improvement tungsten filament, chinese patent that publication number is CN203599431U discloses an improved generation double-shaft wire winding machine of tungsten filament, can realize the quick smooth and easy walking at the uniform velocity of tungsten filament on the cutting machine, the length and the speed of control tungsten filament cutting that can be accurate, and the double-shaft wire winding machine is for unipolar wire winding, and wire winding efficiency is higher.

In view of the above-mentioned related technologies, the inventor believes that in order to further improve the wire winding efficiency, the structure of the current wire winding machine can be further improved, so that a single wire winding machine can wind more tungsten wires on the basis of meeting the wire winding quality.

Disclosure of Invention

In order to solve the problem that the efficiency of a tungsten wire wound by a single wire winding machine is low, the application provides a multi-shaft tungsten wire winding machine.

The application provides a multiaxis tungsten filament winding machine adopts following technical scheme:

a multi-shaft tungsten filament winding machine comprises a rack, wherein one side of filament feeding of the rack is connected with at least one group of filament feeding wheel groups, each filament feeding wheel group comprises two filament feeding supports arranged on the rack, a fixed shaft is connected between the two filament feeding supports, and a plurality of first wire guide wheels are uniformly distributed on the fixed shaft and rotatably connected with the fixed shaft; one side of the rack is provided with a wire wheel set corresponding to the wire feeding wheel set, the wire wheel set comprises a plurality of second wire wheels which are arranged corresponding to the first wire wheels, and the second wire wheels are rotatably arranged; the winding wheel set is arranged on the rack corresponding to the wire guide wheel set and comprises a winding shaft arranged corresponding to the second wire guide wheel, and the winding shaft is rotatably connected with the rack;

a telescopic mechanism is arranged in the rack and pushes the winding shaft to move towards one side away from or close to the rack repeatedly.

By adopting the technical scheme, the tungsten wires are separated and orderly fed towards the wire winding machine under the guide of the wire feeding wheel set, each strand of tungsten wires is guided to the winding shaft under the guide of the wire guiding wheel set, and the tungsten wires are wound under the winding of the winding shaft. The winding machine can wind multiple coils of tungsten wires to the maximum extent, and can wind the tungsten wires of the same specification or different specifications at the same time, so that the winding efficiency is high, and the winding machine is energy-saving and environment-friendly. The arrangement of the telescopic mechanism can enable the winding shaft to repeatedly move towards the rack or far away from the rack during winding, so that the tungsten filament can be uniformly wound on the surface of the winding shaft, and the winding quality is good.

Optionally, the telescopic mechanism comprises a telescopic cylinder, a mounting plate and a rotating shaft, the telescopic cylinder is mounted on the inner wall of the frame, and a piston rod of the telescopic cylinder faces to one side of the winding wheel set; the mounting plate is mounted on a piston rod of the telescopic cylinder, the rotating shaft is inserted into one side of the mounting plate, which is far away from the telescopic cylinder, and the rotating shaft is rotatably connected with the mounting plate; and one side of the rotating shaft, which is far away from the mounting plate, is fixedly connected with the corresponding winding shaft.

Through adopting above-mentioned technical scheme, telescopic cylinder promotes the mounting panel and makes each axis of rotation promote each spool displacement simultaneously, both the energy saving, stability when also can promote the spool and coil the tungsten filament.

Optionally, a transmission motor is mounted on the mounting plate, a first conveyor belt is arranged on an output shaft of the transmission motor, and a rotating shaft adjacent to the transmission motor rotates in the same direction as the output shaft of the transmission motor through the first conveyor belt; and a second conveying belt is connected between the adjacent rotating shafts, and the adjacent rotating shafts rotate in the same direction through the second conveying belt.

Through adopting above-mentioned technical scheme, transmission motor drives the axis of rotation through first conveyer belt and rotates, and the axis of rotation makes all axis of rotation syntropy rotate simultaneously through the second conveyer belt, and comparatively the energy saving, and can effectual control axis of rotation pivoted stability.

Optionally, a thread cutting mechanism is arranged between the lead wheel set and the winding wheel set on the rack and comprises a thread cutting knife and a thread cutting plate which are close to each other, and the silk threads are located between the thread cutting knife and the thread cutting plate.

Through adopting above-mentioned technical scheme, thread cutting mechanism can cut off all tungsten filaments simultaneously through the cooperation of thread cutter and thread cutting board, and cutting efficiency is higher. When the wire cutting knife cuts the tungsten filament, the wire cutting plate can block the displacement path of the tungsten filament, so that the wire cutting knife can cut the tungsten filament as soon as possible.

Optionally, the wire cutting mechanism further comprises a fixing column, a connecting shaft, a first connecting column, a second connecting column and an elastic connecting piece, one end of the fixing column is fixed on the rack, and the fixing column is located on one side, facing the winding shaft, of the rack; the connecting shaft is arranged on the fixing column and is horizontally arranged; the connecting shaft penetrates through the first connecting column and the second connecting column, and the first connecting column and the second connecting column are arranged at an included angle; one end of the first connecting column, which is far away from the connecting shaft, is connected with the wire cutting knife, and one end of the second connecting column, which is far away from the connecting shaft, is connected with the wire cutting column;

an elastic connecting piece is connected between the first connecting column and the second connecting column, and the cutting edge of the wire cutting knife is abutted against the side wall of the wire cutting column under the free extension state of the elastic connecting piece; and a strutting mechanism is arranged between the first connecting column and the second connecting column, and the strutting mechanism enables the first connecting column and the second connecting column to rotate reversely.

Through adopting above-mentioned technical scheme, strut first spliced pole and second spliced pole through strutting the mechanism for the separation of tangent line sword and tangent line board, the tungsten filament of being convenient for passes between from tangent line sword and the tangent line board. When the tungsten filament needs to be cut off, the opening mechanism is withdrawn, and the thread cutting knife and the thread cutting plate are close to each other under the pulling of the elastic connecting piece, so that the thread cutting knife can automatically cut off the tungsten filament.

Optionally, the spreading mechanism comprises a mounting column mounted on the connecting shaft, one end of the mounting column is located on one side of the first connecting column, which is far away from the wire cutter, and the other end of the mounting column is located on one side of the second connecting column, which is far away from the wire cutter; a first lifting cylinder is arranged on one side, away from the first connecting column, of the mounting column, and a piston rod of the first lifting cylinder is arranged towards one side, away from the first connecting column; a second lifting cylinder is arranged on one side, away from the second connecting column, of the mounting column, and a piston rod of the second lifting cylinder is arranged towards one side, away from the second connecting column; the first connecting column and the second connecting column are tied with connecting ropes, the connecting ropes on the first connecting column are connected with a piston rod of the first lifting cylinder, and the connecting ropes on the second connecting column are connected with a piston rod of the second lifting cylinder.

Through adopting above-mentioned technical scheme, the piston rod of first lift cylinder and second lift cylinder stretches out and the pulling connection rope, connects first spliced pole of rope pulling and second spliced pole antiport to make tangent line sword and tangent line board keep away from relatively, reach the purpose that struts tangent line mechanism.

Optionally, the piston rods of the first lifting cylinder and the second lifting cylinder are fixedly sleeved with mounting rings, the circumferential walls of the mounting rings are provided with embedding grooves, and one ends of the connecting ropes are wound around the mounting peripheries and embedded in the embedding grooves.

Through adopting above-mentioned technical scheme, the tip that collar and embedded groove can prevent to connect the rope breaks away from on the piston rod of first lift cylinder and second lift cylinder, can promote the stability of strutting the mechanism operation.

Optionally, an extension plate is arranged on the first connecting column, and the extension plate extends to a position opposite to the second connecting column; the elastic connecting piece is arranged between the extension plate and the second connecting column.

Through adopting above-mentioned technical scheme, because first spliced pole and second spliced pole are dislocation set when installing on the connecting axle, the extension board can be so that first spliced pole and second spliced pole have the position of relative setting to make the stress point at elastic connection spare both ends and the stress point at elastic connection spare center be located the coplanar.

Optionally, a folding rod is connected to the connecting shaft, a vertical section of the folding rod is fixed to the connecting shaft, a horizontal section of the folding rod is located between the extension plate and the second connecting column, and elastic connecting pieces are connected between the horizontal section of the folding rod and the extension plate and between the horizontal section of the folding rod and the second connecting column; the included angle between the vertical section of the folding rod and the extension plate is the same as the included angle between the vertical section of the folding rod and the second connecting column.

Through adopting above-mentioned technical scheme, the setting of folding rod for first spliced pole and second spliced pole begin to set up towards wire wheelset one side, and the range of being convenient for first spliced pole and the many times of second spliced pole pivoted tends to unanimity.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the wire feeding wheel set, the wire guiding wheel set and the winding wheel set, multiple coils of tungsten wires can be wound to the maximum extent at the same time, the tungsten wires with the same specification or different specifications can be wound at the same time, and the winding efficiency is higher;

2. through the arrangement of the telescopic mechanism, the winding shaft can repeatedly move towards or away from the rack while winding, so that tungsten wires can be uniformly wound on the surface of the winding shaft, and the winding quality is good;

3. through the setting of tangent line mechanism, can play and cut off all tungsten filaments simultaneously, cut off the higher effect of efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of a filament winding machine according to an embodiment of the present application.

FIG. 2 is a schematic cross-sectional view of a filament winding machine according to an embodiment of the present application.

Fig. 3 is a schematic view of a connection structure of the thread cutting mechanism and the expanding mechanism according to the embodiment of the present application.

Description of reference numerals: 1. a frame; 2. a wire feeding wheel group; 21. feeding a wire support; 22. a fixed shaft; 23. a first wire guide wheel; 3. a wire wheel set; 31. a second wire guide wheel; 4. a winding wheel set; 41. a spool; 5. a telescoping mechanism; 51. a telescopic cylinder; 52. mounting a plate; 53. a rotating shaft; 6. a drive motor; 61. a first conveyor belt; 62. a second conveyor belt; 7. a wire cutting mechanism; 71. fixing a column; 72. a connecting shaft; 73. a first connecting column; 74. a second connecting column; 75. an elastic connecting member; 76. an extension plate; 77. folding the rod; 78. a wire cutter; 79. a wire cutting plate; 8. a distraction mechanism; 81. mounting a column; 82. a first lifting cylinder; 83. a second lifting cylinder; 84. a mounting ring; 85. an embedding groove; 86. and connecting ropes.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a multi-shaft tungsten wire winding machine. Referring to fig. 1, a multi-shaft tungsten filament winding machine comprises a frame 1, wherein one side of the frame 1, which is fed with filaments, is connected with at least one group of filament feeding wheel set 2, one side of the frame 1 is provided with a wire wheel set 3 corresponding to the filament feeding wheel set 2, and the frame 1 is provided with a winding wheel set 4 corresponding to the wire wheel set 3. The wire feeding wheel group 2 comprises two wire feeding supports 21 arranged on the frame 1, a fixed shaft 22 is connected between the two wire feeding supports 21, and a plurality of first wire guide wheels 23 are uniformly distributed on the fixed shaft 22 and rotatably connected with the fixed shaft. The wire wheel group 3 comprises a plurality of second wire wheels 31 which are arranged corresponding to the first wire wheels 23, and the second wire wheels 31 are rotatably arranged with the frame 1 through wire shafts. The winding wheel set 4 includes a winding shaft 41 disposed corresponding to the second wire guiding wheel 31, and the winding shaft 41 is rotatably connected to the frame 1.

Referring to fig. 2, a telescopic mechanism 5 is disposed in the frame 1, and the telescopic mechanism 5 pushes the spool 41 to repeatedly move toward a side away from or close to the frame 1. Under the guide of the wire feeding wheel set 2, a plurality of tungsten wires are fed towards the wire winding machine in a separated and orderly manner, each strand of tungsten wires is guided to the winding shaft 41 under the guide of the wire guiding wheel set 3, and the tungsten wires are wound under the winding of the winding shaft 41. The winding shaft 41 repeatedly moves towards the rack 1 or away from the rack 1 while winding, so that the tungsten filament can be uniformly wound on the surface of the winding shaft 41, and the winding quality is good.

Referring to fig. 2, the telescopic mechanism 5 includes a telescopic cylinder 51, a mounting plate 52, and a rotating shaft 53, wherein the telescopic cylinder 51 is mounted on the inner wall of the frame 1, and a piston rod of the telescopic cylinder 51 faces a side where the winding wheel set 4 is disposed. The mounting plate 52 is mounted on the piston rod of the telescopic cylinder 51, the rotating shaft 53 is inserted into one side of the mounting plate 52 far away from the telescopic cylinder 51, and the rotating shaft 53 is rotatably connected with the mounting plate 52. The side of the rotating shaft 53 away from the mounting plate 52 is fixedly connected to the corresponding winding shaft 41.

Referring to fig. 2, a transmission motor 6 is mounted on the mounting plate 52, a first conveyor belt 61 is disposed on an output shaft of the transmission motor 6, and the rotating shaft 53 adjacent to the transmission motor 6 rotates in the same direction as the output shaft of the transmission motor 6 through the first conveyor belt 61. The second conveyor belt 62 is connected between the adjacent rotating shafts 53, and the adjacent rotating shafts 53 rotate in the same direction by the second conveyor belt 62. The transmission motor 6 drives the rotation shaft 53 to rotate through the first conveyor belt 61, and the rotation shaft 53 enables all the rotation shafts 53 to simultaneously rotate in the same direction through the second conveyor belt 62, so that energy is saved.

Referring to fig. 1 and 3, a thread cutting mechanism 7 is disposed on the frame 1 between the wire wheel set 3 and the winding wheel set 4, the thread cutting mechanism 7 includes a thread cutting knife 78 and a thread cutting plate 79 disposed close to each other, and the thread is disposed between the thread cutting knife 78 and the thread cutting plate 79. The thread cutting mechanism 7 further comprises a fixing column 71, a connecting shaft 72, a first connecting column 73, a second connecting column 74 and an elastic connecting piece 75, wherein one end of the fixing column 71 is fixed on the rack 1, and the fixing column 71 is located on one side of the rack 1 facing the winding shaft 41. The connecting shaft 72 is mounted on the fixing column 71, and the connecting shaft 72 is horizontally arranged. The connecting shaft 72 is disposed through the first connecting column 73 and the second connecting column 74, and the first connecting column 73 and the second connecting column 74 form an included angle. One end of the first connecting column 73 far away from the connecting shaft 72 is connected with the wire cutting knife 78, and one end of the second connecting column 74 far away from the connecting shaft 72 is connected with the wire cutting column.

Referring to fig. 1 and 3, an elastic connector 75 is connected between the first connecting post 73 and the second connecting post 74, and the cutting edge of the wire cutter 78 abuts against the side wall of the wire cutting post when the elastic connector 75 is in a freely extended state. A distraction mechanism 8 is arranged between the first connecting column 73 and the second connecting column 74, and the distraction mechanism 8 enables the first connecting column 73 and the second connecting column 74 to rotate reversely. The first connecting post 73 is provided with an extension plate 76, and the extension plate 76 extends to be disposed opposite to the second connecting post 74. The extension plate 76 may allow the first connecting post 73 and the second connecting post 74 to be oppositely disposed, so that the force points at the two ends of the elastic connection member 75 and the force point at the center of the elastic connection member 75 are located on the same plane. The elastic connector 75 is installed between the extension plate 76 and the second connection post 74.

Referring to fig. 1 and 3, a folding rod 77 is disposed on the connecting shaft 72, a vertical section of the folding rod 77 is connected to the connecting shaft 72, and a horizontal section of the folding rod 77 extends between the extending plate 76 and the second connecting column 74. Elastic connecting pieces 75 are connected between the horizontal section of the folding rod 77 and the extension plate 76 and between the horizontal section of the folding rod 77 and the second connecting column 74. The angle between the horizontal section of the folding bar 77 and the extension plate 76 is the same as the angle between the horizontal section of the folding bar 77 and the second connecting post 74. The elastic connecting member 75 may be an extension spring, a rubber string, or the like.

Referring to fig. 1 and 3, the spreading mechanism 8 includes a mounting post 81 mounted on the connecting shaft 72, one end of the mounting post 81 is located on a side of the first connecting post 73 away from the thread cutting knife 78, and the other end of the mounting post 81 is located on a side of the second connecting post 74 away from the thread cutting plate 79. A first lifting cylinder 82 is installed on one side of the installation column 81 far away from the first connection column 73, and a piston rod of the first lifting cylinder 82 is arranged towards one side far away from the first connection column 73. The side of the mounting column 81 far away from the second connecting column 74 is provided with a second lifting cylinder 83, and the piston rod of the second lifting cylinder 83 faces the side far away from the second connecting column 74. Connecting ropes 86 are tied on the first connecting column 73 and the second connecting column 74, the connecting rope 86 on the first connecting column 73 is connected with a piston rod of the first lifting cylinder 82, and the connecting rope 86 on the second connecting column 74 is connected with a piston rod of the second lifting cylinder 83. The piston rods of the first lifting cylinder 82 and the second lifting cylinder 83 are fixedly sleeved with mounting rings 84, the circumferential wall of each mounting ring 84 is provided with an embedding groove 85, and one end of a connecting rope 86 is wound on the mounting periphery and embedded in the embedding groove 85.

The implementation principle of the multi-axis tungsten filament winding in the embodiment of the application is as follows: firstly, the first connecting post 73 and the second connecting post 74 are enabled to rotate towards one side far away from the folding rod 77 through the spreading mechanism 8, then, each formed tungsten wire is guided into the wire winding machine through the first wire guiding wheel 23, one first wire guiding wheel 23 corresponds to one second wire guiding wheel 31, the tungsten wire at the position of the first wire guiding wheel 23 is guided to the position of the second guiding wheel, and the tungsten wire is wound on the corresponding winding shaft 41 through the second guiding wheel. When all the tungsten wires on the wire winding machine are drawn to the corresponding winding shafts 41, the driving motor 6 and the telescopic cylinder 51 are started, and the driving motor 6 rotates all the rotating shafts 53 simultaneously through the first conveyor belt 61 and the second conveyor belt 62, so that the winding shafts 41 start to wind the tungsten wires. The telescopic cylinder 51 pushes the mounting plate 52 to displace the spool 41, so that the tungsten wire is uniformly wound on the spool 41. After the tungsten wire is wound, the piston rods of the first lifting cylinder 82 and the second lifting cylinder 83 return, the elastic connecting piece 75 resets and pulls the first connecting column 73 and the second connecting column 74 to reset, and the wire cutting knife 78 and the wire cutting plate 79 approach to each other until the wire cutting knife 78 cuts off the tungsten wire.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A multiaxis tungsten filament winding machine, includes frame (1), its characterized in that: one side of the wire feeding of the rack (1) is connected with at least one wire feeding wheel set (2), the wire feeding wheel set (2) comprises two wire feeding supports (21) arranged on the rack (1), a fixed shaft (22) is connected between the two wire feeding supports (21), and a plurality of first wire guide wheels (23) are rotationally connected on the fixed shaft (22); a wire wheel set (3) is arranged on one side of the rack (1) corresponding to the wire feeding wheel set (2), the wire wheel set (3) comprises a plurality of second wire wheels (31) which are arranged corresponding to the first wire wheels (23), and the second wire wheels (31) are rotatably arranged; a winding wheel set (4) is arranged on the rack (1) corresponding to the lead wheel set (3), the winding wheel set (4) comprises a winding shaft (41) which is arranged corresponding to the second lead wheel (31), and the winding shaft (41) is rotatably connected with the rack (1);

the winding machine is characterized in that a telescopic mechanism (5) is arranged in the rack (1), and the telescopic mechanism (5) pushes the winding shaft (41) to repeatedly move towards one side far away from or close to the rack (1).

2. A multi-axis tungsten wire winder as claimed in claim 1, wherein: the telescopic mechanism (5) comprises a telescopic cylinder (51), a mounting plate (52) and a rotating shaft (53), the telescopic cylinder (51) is mounted on the inner wall of the rack (1), and a piston rod of the telescopic cylinder (51) faces to one side where the winding wheel set (4) is arranged; the mounting plate (52) is mounted on a piston rod of the telescopic cylinder (51), the rotating shaft (53) is inserted into one side, far away from the telescopic cylinder (51), of the mounting plate (52), and the rotating shaft (53) is rotatably connected with the mounting plate (52); and one side of the rotating shaft (53) far away from the mounting plate (52) is fixedly connected with the corresponding winding shaft (41).

3. A multi-axis tungsten wire winder as claimed in claim 2, wherein: a transmission motor (6) is mounted on the mounting plate (52), a first conveying belt (61) is arranged on an output shaft of the transmission motor (6), and a rotating shaft (53) adjacent to the transmission motor (6) rotates in the same direction with the output shaft of the transmission motor (6) through the first conveying belt (61); and a second conveyor belt (62) is connected between the adjacent rotating shafts (53), and the adjacent rotating shafts (53) rotate in the same direction through the second conveyor belt (62).

4. A multi-axis tungsten wire winder as claimed in claim 1, wherein: be provided with tangent line mechanism (7) between wire wheelset (3) and wire winding wheelset (4) on frame (1), tangent line mechanism (7) are including being close to tangent line sword (78) and tangent line board (79) that set up each other, and the silk thread is located between tangent line sword (78) and tangent line board (79).

5. A multi-axis tungsten wire winder as claimed in claim 4, wherein: the wire cutting mechanism (7) further comprises a fixing column (71), a connecting shaft (72), a first connecting column (73), a second connecting column (74) and an elastic connecting piece (75), one end of the fixing column (71) is fixed on the rack (1), and the fixing column (71) is located on one side, facing the winding shaft (41), of the rack (1); the connecting shaft (72) is mounted on the fixing column (71), and the connecting shaft (72) is horizontally arranged; the connecting shaft (72) penetrates through the first connecting column (73) and the second connecting column (74), and the first connecting column (73) and the second connecting column (74) are arranged at an included angle; one end, far away from the connecting shaft (72), of the first connecting column (73) is connected with the wire cutting knife (78), and one end, far away from the connecting shaft (72), of the second connecting column (74) is connected with the wire cutting column;

an elastic connecting piece (75) is connected between the first connecting column (73) and the second connecting column (74), and the cutting edge of the thread cutter (78) is abutted against the side wall of the thread cutting column under the free extension state of the elastic connecting piece (75); a spreading mechanism (8) is arranged between the first connecting column (73) and the second connecting column (74), and the first connecting column (73) and the second connecting column (74) are arranged in a reverse rotating mode through the spreading mechanism (8).

6. A multi-axis tungsten wire winder as claimed in claim 5, wherein: the opening mechanism (8) comprises a mounting column (81) mounted on the connecting shaft (72), one end of the mounting column (81) is located on one side, away from the wire cutting knife (78), of the first connecting column (73), and the other end of the mounting column (81) is located on one side, away from the wire cutting plate (79), of the second connecting column (74); a first lifting cylinder (82) is installed on one side, away from the first connecting column (73), of the installation column (81), and a piston rod of the first lifting cylinder (82) is arranged towards one side, away from the first connecting column (73); a second lifting cylinder (83) is installed on one side, far away from the second connecting column (74), of the installing column (81), and a piston rod of the second lifting cylinder (83) is arranged towards one side, far away from the second connecting column (74); the connecting rope (86) is tied on the first connecting column (73) and the second connecting column (74), the connecting rope (86) on the first connecting column (73) is connected with a piston rod of the first lifting cylinder (82), and the connecting rope (86) on the second connecting column (74) is connected with a piston rod of the second lifting cylinder (83).

7. A multi-axis tungsten wire winder as claimed in claim 6, wherein: the piston rods of the first lifting cylinder (82) and the second lifting cylinder (83) are fixedly sleeved with mounting rings (84), embedding grooves (85) are formed in the peripheral walls of the mounting rings (84), and one end of each connecting rope (86) is wound on the mounting periphery and embedded in the embedding grooves (85).

8. A multi-axis tungsten wire winder as claimed in claim 5, wherein: an extension plate (76) is arranged on the first connecting column (73), and the extension plate (76) extends to be opposite to the second connecting column (74); the elastic connecting piece (75) is arranged between the extension plate (76) and the second connecting column (74).

9. A multi-axis tungsten wire winder as claimed in claim 8, wherein: a folding rod (77) is connected onto the connecting shaft (72), the vertical section of the folding rod (77) is fixed onto the connecting shaft (72), the horizontal section of the folding rod (77) is positioned between the extension plate (76) and the second connecting column (74), and elastic connecting pieces (75) are respectively connected between the horizontal section of the folding rod (77) and the extension plate (76) and between the horizontal section of the folding rod (77) and the second connecting column (74); the included angle between the vertical section of the folding rod (77) and the extension plate (76) is the same as the included angle between the vertical section of the folding rod (77) and the second connecting column (74).