CN112388084A - Full-automatic welding device for graphene heating film - Google Patents

Abstract

The invention discloses a full-automatic welding device for a graphene heating film, which comprises a base and an installation frame fixedly installed on the base, wherein an installation hole and the graphene heating film are formed in the upper surface of the base, a rivet is inserted into the graphene heating film, the lower end of the rivet is inserted into the installation hole and is in sliding connection with the installation hole, an installation ring is horizontally arranged right above the rivet, the installation ring is fixedly installed on a ring frame, and the ring frame is vertically and rotatably installed on the base through a rotating shaft. Has the advantages that: the full-automatic welding device for the graphene heating film, provided by the invention, can realize full-automatic welding of the graphene heating film, is high in welding speed and efficiency, can avoid shaking of the graphene heating film and a rivet during welding, is good in welding effect and high in yield, reduces the production cost of the graphene heating film, and is good in practicability.

Description

Full-automatic welding device for graphene heating film

Technical Field

The invention relates to the field of graphene, in particular to a full-automatic welding device for a graphene heating film.

Background

The graphene heating film is the only flexible film without other doped pure carbon atoms in all electric heating films, the electric heating conversion efficiency of the graphene heating film is the highest among all electric heating elements, and the graphene heating film hardly has any loss in the energy conversion process, so that the graphene heating film is more and more widely applied in industrial production in recent years;

need regard as two electrodes of graphite alkene heating film through two rivets of riveting in graphite alkene heating film, need weld the bonding wire on two rivets after the riveting finishes, because graphite alkene heating film belongs to the flexible membrane, the diaphragm easily rocks in the welding and leads to the welding point dislocation, causes graphite alkene heating film to damage and scrapps, and the defective percentage is higher when the welding of so traditional graphite alkene heating film, therefore graphite alkene heating film's manufacturing cost is high for a long time.

Disclosure of Invention

The invention aims to solve the problems, and provides a full-automatic welding device for a graphene heating film, so as to solve the problems that the production cost of the graphene heating film is high for a long time and the like due to the poor welding process level and high welding defective rate of the traditional graphene heating film in the prior art. According to the technical scheme, the graphene heating film can be fully automatically welded, the welding speed is high, the efficiency is high, the graphene heating film and the rivet can be prevented from shaking during welding, the welding effect is good, the yield is high, the production cost of the graphene heating film is reduced, the practicability is good, and the like, and the technical effects are described in detail below.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides a full-automatic welding device for a graphene heating film, which comprises a base and an installation frame fixedly installed on the base, the upper surface of the base is provided with a mounting hole and a graphene heating film, the graphene heating film is spliced with a rivet, the lower end of the rivet is inserted into the mounting hole and is connected with the mounting hole in a sliding way, a mounting ring is horizontally arranged right above the rivet, the mounting ring is fixedly arranged on a ring frame, the ring frame is vertically arranged on the base in a rolling manner through a rotating shaft, the base is also provided with a rotating motor for driving the rotating shaft to rotate, a plurality of rivets which are distributed in a centrosymmetric manner are vertically inserted into the mounting ring, the upper end of each rivet is connected with a welding wire, the other end of the welding wire extends to the rotating shaft, a plurality of shielding sheets which are distributed in central symmetry are fixedly arranged on the mounting ring, and the number of the shielding sheets is equal to that of the rivets; the base and the mounting rack are provided with a pair of photoelectric switches, the photoelectric switches are electrically connected with the rotating motor, and the shielding piece can rotate to a position between the pair of photoelectric switches along with the mounting ring and trigger the photoelectric switches;

the upper surface of the base is provided with a first pressure switch, and the graphene heating film is flatly placed on the first pressure switch; a push rod motor is vertically and fixedly installed at the bottom of the mounting hole, and a push rod head at the upper end of the push rod motor is in contact with the bottom of the rivet;

an electro-hydraulic push rod I is vertically and fixedly mounted on the mounting frame and is electrically connected with the photoelectric switch, a push rod seat is fixedly mounted on a push rod head at the lower end of the electro-hydraulic push rod I, a long top column and a short top column are mounted at the lower end of the push rod seat, the long top column is located right above the welding line, and the short top column is located right above the rivet and can move up and down to push the rivet out of the mounting ring; the lower surfaces of the long jacking column and the short jacking column are provided with a second pressure switch and a groove, a second electro-hydraulic push rod is vertically and fixedly installed in the groove, a welding head is fixedly installed on a push rod head at the lower end of the second electro-hydraulic push rod, and the second pressure switch is electrically connected with a second push rod motor;

the lower surface of the mounting rack is further provided with a microcomputer time control switch, an infrared induction switch and a limit switch, the limit switch is electrically connected with the push rod motor, the limit switch can be triggered when the push rod seat moves upwards, the infrared induction switch and the pressure switch I are electrically connected with the rotating motor, and the microcomputer time control switch is electrically connected with the electro-hydraulic push rod I and the electro-hydraulic push rod II.

As an important design of the scheme, the ring frame is fixedly provided with an installation ring with the central axis coincident with the central axes of the installation ring and the rotating shaft, the installation ring is provided with a plurality of wire releasing grooves, the number of the wire releasing grooves is equal to that of the rivets, and one end of a welding wire on each rivet penetrates through the wire releasing grooves.

As the optimized design of the scheme, the shielding piece is positioned on the outer side of the mounting ring.

As the optimized design of the scheme, an opening is formed in the connecting position of the inner side face of the mounting ring and the rivet, and the welding wire penetrates through the opening and moves up and down along the opening.

As the optimal design of the scheme, the upper surface of the base is provided with the stop strips, and the graphene heating film is clamped on the base through the stop strips.

As the optimized design of the scheme, the infrared induction switch is positioned right above the graphene heating film.

As the optimized design of the scheme, the first pressure switch is positioned at one end, close to the mounting hole, of the upper surface of the base.

When the technical scheme is adopted, in use, a worker puts a graphene heating film to be welded on a base and clamps a baffle, and then hands leave an area below an installation frame, at the moment, a pressure switch I is pressed by the graphene heating film downwards, an infrared induction switch detects that no arm extends into the lower part of the installation frame, the infrared induction switch and the pressure switch I are connected with a rotating motor together, the installation is driven by the rotating motor to rotate around a rotating shaft, when a shielding piece rotates to a position between an upper photoelectric switch and a lower photoelectric switch, a photoelectric signal is blocked, the photoelectric switch controls the rotating motor to stop rotating according to the photoelectric signal, meanwhile, an electro-hydraulic push rod I is controlled to act to push a push rod seat to move downwards, when a pressure switch II on the lower end faces of a long jacking column and a short jacking column touches the graphene heating film and a rivet, a pressure switch II controls an electro-hydraulic push rod I to stop acting, and meanwhile, an electro-hydraulic push rod II is controlled to act to push a welding head to move downwards to press The welding wire, the graphene heating film and the rivet are welded and fixed (a welding head keeps a working power-on state in the whole process of the full-automatic welding device of the graphene heating film), after a period of time, a microcomputer time control switch controls a first electro-hydraulic push rod and a second electro-hydraulic push rod to ascend and leave the mounting ring, when a push rod seat ascends and touches a limit switch, the limit switch controls a push rod motor to rotate to push the rivet out of a mounting hole, the graphene heating film is separated from a pressure switch, at the moment, even if an arm of a worker stretches into the position under the mounting frame to take away the graphene heating film, the rotary motor cannot rotate, because the pressure switch does not receive the pressure of the graphene heating film on the pressure switch, and then after the worker places a new graphene heating film on a base and is clamped by a stop bar, the pressure switch receives the downward pressure of the graphene heating film, and an infrared induction switch detects that no arm stretches into the position under the mounting frame, pressure switch one and infrared induction switch control rotating electrical machines continue to rotate, repeat the above-mentioned action, thereby realize full-automatic welding, in the whole welding process, the staff only need place graphite alkene heating film on the base, treat that it takes away after welding finishes again, and is simple and convenient to operate, time saving and labor saving, and the welding is gone on after long fore-set and short fore-set compress tightly graphite alkene heating film and rivet, consequently graphite alkene heating film and rivet rock when can avoiding welding, the welding is effectual, the yield is high, graphite alkene heating film's manufacturing cost also can reduce, and the practicality is good.

Has the advantages that: the full-automatic welding device for the graphene heating film, provided by the invention, can realize full-automatic welding of the graphene heating film, is high in welding speed and efficiency, can avoid shaking of the graphene heating film and a rivet during welding, is good in welding effect and high in yield, reduces the production cost of the graphene heating film, and is good in practicability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a front view of the present invention;

FIG. 2 is an internal block diagram of FIG. 1 of the present invention;

FIG. 3 is a top view of the mounting ring of the present invention;

FIG. 4 is an enlarged partial view of FIG. 3 of the present invention;

FIG. 5 is an internal structural view of a front view of the long and short masts of the present invention;

fig. 6 is a bottom view of the long and short masts of the present invention.

The reference numerals are explained below:

1. a base; 2. a mounting frame; 3. an electro-hydraulic push rod I; 4. a push rod seat; 5. a long top pillar; 6. a short top pillar; 7. a rotating shaft; 8. a ring frame; 9. a mounting ring; 10. riveting; 11. welding wires; 12. a wire releasing groove; 13. a shielding sheet; 14. a rotating electric machine; 15. a photoelectric switch; 16. a push rod motor; 17. a first pressure switch; 18. an infrared inductive switch; 19. a limit switch; 20. a microcomputer time control switch; 21. a groove; 22. an electro-hydraulic push rod II; 23. a welding head; 24. a second pressure switch; 25. mounting holes; 26. a graphene heating film; 27. installing a ring; 28. an opening; 29. a stop bar.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Referring to fig. 1-6, the full-automatic welding device for the graphene heating film provided by the invention comprises a base 1 and a mounting frame 2 fixedly mounted on the base 1, wherein a mounting hole 25 and a graphene heating film 26 are arranged on the upper surface of the base 1, the mounting hole 25 is used for mounting and fixing a push rod motor 16 on one hand, and is used for fixing a rivet 10 on the other hand, the rivet 10 is inserted into the graphene heating film 26, the lower end of the rivet 10 is inserted into the mounting hole 25 and is in sliding connection with the mounting hole 25, so that the push rod motor 16 can push the rivet 10 out of the mounting hole 25 conveniently, a mounting ring 9 is horizontally arranged right above the rivet 10, the mounting ring 9 is used for mounting a plurality of rivets 10 to be inserted into the graphene heating film 26, the mounting ring 9 is fixedly mounted on a ring frame 8, the ring frame 8 is vertically and rollably mounted on the base 1 through a rotating shaft 7, the base 1 is further provided with a rotating motor 14 for, the mounting ring 9 is vertically inserted with a plurality of rivets 10 which are distributed in a central symmetry manner, the upper end of each rivet 10 is connected with a welding wire 11, and the other end of each welding wire 11 extends to the rotating shaft 7, so that the welding wires 11 can conveniently pass through the opening 28, the mounting ring 9 is also fixedly provided with a plurality of shielding sheets 13 which are distributed in a central symmetry manner, the shielding sheets 13 are used for triggering the photoelectric switch 15, the rotating motor 14 is controlled to stop rotating through the photoelectric switch 15, and the number of the shielding sheets 13 is equal to the number of the rivets 10; a pair of photoelectric switches 15 are mounted on the base 1 and the mounting frame 2, the photoelectric switches 15 are electrically connected with a rotary motor 14, the shielding piece 13 can rotate to a position between the pair of photoelectric switches 15 along with the mounting ring 9 and trigger the photoelectric switches 15, and thus, when one rivet 10 rotates to a position right above the mounting hole 25, the rotary motor 14 automatically stops rotating under the control of the photoelectric switches 15, and the rivet 10 is conveniently ejected downwards by the following short ejection column 6 and inserted into the mounting hole 25;

referring to fig. 2, a first pressure switch 17 is installed on the upper surface of the base 1, and the graphene heating film 26 is flatly placed on the first pressure switch 17, so that when the graphene heating film 26 is placed on the base 1, the graphene heating film 26 presses down the first pressure switch 17; a push rod motor 16 is vertically and fixedly installed at the bottom of the installation hole 25, and a push rod head at the upper end of the push rod motor 16 is contacted with the bottom of the rivet 10;

referring to fig. 1-6, an electro-hydraulic push rod one 3 is vertically and fixedly mounted on a mounting frame 2, the electro-hydraulic push rod one 3 is electrically connected with a photoelectric switch 15, and the electro-hydraulic push rod one 3 is controlled by the photoelectric switch 15 to move to push a long top pillar 5 and a short top pillar 6 to move downwards, a push rod base 4 is fixedly mounted on a push rod head at the lower end of the electro-hydraulic push rod one 3, the push rod base 4 is used for mounting and fixing the long top pillar 5 and the short top pillar 6, the long top pillar 5 and the short top pillar 6 are mounted at the lower end of the push rod base 4, the long top pillar 5 is located right above a welding wire 11, the long top pillar 5 is used for pressing the welding wire 11 on a graphene heating film 26, and the short top pillar 6 is located right above a rivet 10 and can move upwards and downwards to; the lower surfaces of the long top column 5 and the short top column 6 are provided with a pressure switch II 24 and a groove 21, the pressure switch II 24 is used for controlling an electro-hydraulic push rod II 22 to act to push a welding head 23 to weld a welding wire 11 on a graphene heating film 26 and a rivet 10, the electro-hydraulic push rod II 22 is vertically and fixedly installed in the groove 21, the electro-hydraulic push rod II 22 is used for pushing the welding head 23 to descend to press the welding wire 11 tightly and weld the welding wire 11 on the rivet 10 and the graphene heating film 26, the welding head 23 is fixedly installed on the push rod head at the lower end of the electro-hydraulic push rod II 22, and the pressure switch II 24 is electrically connected with a;

referring to fig. 2, the lower surface of the mounting frame 2 is further provided with a microcomputer time control switch 20, an infrared sensing switch 18 and a limit switch 19, the limit switch 19 is electrically connected with the push rod motor 16, the limit switch 19 is designed to control the push rod motor 16 to act to push the rivet 10 out of the mounting hole 25, the limit switch 19 can be triggered when the push rod seat 4 moves upwards, the infrared sensing switch 18 and the pressure switch I17 are electrically connected with the rotating motor 14, and the design is designed such that only when the arm of a worker leaves the area below the mounting frame 2 and the graphene heating film 26 is mounted in place, the rotating motor 14 can rotate, the personal safety of the worker is effectively protected, the microcomputer time control switch 20 is electrically connected with the electro-hydraulic push rod I3 and the electro-hydraulic push rod II 22, in order to prevent the welding wire 11 from being torn off, the microcomputer time control switch 20 controls the electro-hydraulic push rod I3 and the electro-, the problem that welding is easily broken when the electro-hydraulic push rod I3 and the electro-hydraulic push rod II 22 simultaneously push the welding head 23 to press the welding wire 11 is avoided, and how to set a control program for the microcomputer time control switch 20 belongs to the prior art and need not be described herein again.

As an optional embodiment, an installation ring 27 with a central axis coinciding with the central axis of the installation ring 9 and the rotating shaft 7 is fixedly installed on the ring frame 8, a plurality of wire placing grooves 12 are installed on the installation ring 27, the wire placing grooves 12 facilitate workers to place the rivets 10 at appropriate positions on the installation ring 9, and in order to weld the bonding wires 11, one ends of the bonding wires 11 need to face the central axis of the installation ring 9, so that, after the rivets 10 are placed, the bonding wires 11 can be placed correctly by penetrating the wire placing grooves 12, the number of the wire placing grooves 12 is equal to the number of the rivets 10, and one end of each bonding wire 11 on each rivet 10 penetrates through the wire placing grooves 12.

The shielding piece 13 is positioned on the outer side of the mounting ring 9, so that the ring frame 8 is prevented from mistakenly touching the luminous switch 15 to act.

An opening 28 is arranged at the joint of the rivet 10 and the inner side surface of the mounting ring 9, the welding wire 11 passes through the opening 28 and moves up and down along the opening 28, and the opening 28 facilitates the long top column 5 to push the welding wire 11 to move downwards to smoothly leave the mounting ring 9.

The upper surface of base 1 is provided with shelves strip 29, and graphite alkene heating film 26 passes through shelves strip 29 chucking on base 1, and shelves strip 29 is convenient for the staff and places graphite alkene heating film 26 the correct position on base 1 fast.

The infrared inductive switch 18 is located right above the graphene heating film 26, and the design facilitates the detection of the arm of the worker by the infrared inductive switch 18.

The first pressure switch 17 is located at one end, close to the mounting hole 25, of the upper surface of the base 1, and thus, as long as the rivet 10 is ejected out of the mounting hole 25 by the push rod motor 16, the first pressure switch 17 is no longer subjected to downward pressure of the graphene heating film 26 on the first pressure switch 17.

By adopting the technical scheme, when in use, a worker puts the graphene heating film 26 to be welded on the base 1 and well clamps the barrier strips 29, then leaves the area below the mounting frame 2 with hands, at the moment, the first pressure switch 17 is pressed downwards by the graphene heating film 26, the infrared induction switch 18 detects that no arm extends into the lower part of the mounting frame 2, the infrared induction switch 18 and the first pressure switch 17 are connected with the rotating motor 14 together, the rotating motor 14 drives the mounting ring 9 to rotate around the rotating shaft 7 through the rotating motor 14, when the shielding sheet 13 rotates to a position between the upper photoelectric switch 15 and the lower photoelectric switch 15, the photoelectric signal is blocked, the photoelectric switch 15 controls the rotating motor 14 to stop rotating according to the signal, and simultaneously controls the first electro-hydraulic push rod 3 to move to push the push rod seat 4 to move downwards, when the second pressure switch 24 on the lower end faces of the long support pillar 5 and the short support pillar 6 touches the graphene heating film 26 and the rivet 10, the pressure switch II 24 controls the electro-hydraulic push rod I3 to stop acting, and simultaneously controls the electro-hydraulic push rod II 22 to act to push the welding head 23 to move downwards to press the welding wire 11 on the graphene heating film 26 and the rivet 10 and weld and fix the welding wire 11 with the graphene heating film 26 and the rivet 10 (the welding head 23 keeps a working power-on state in the whole process of the full-automatic welding device of the graphene heating film 26), after a period of time, the microcomputer time control switch 20 controls the electro-hydraulic push rod I3 and the electro-hydraulic push rod II 22 to ascend and leave the mounting ring 9, when the push rod seat 4 ascends and touches the limit switch 19, the limit switch 19 controls the push rod motor 16 to rotate to eject the rivet 10 out of the mounting hole 25, the graphene heating film 26 is separated from the pressure switch I17, at the moment, even if the arm of a worker stretches into the position under the mounting frame 2 to take away the graphene heating film 26, because the first pressure switch 17 is not pressed by the graphene heating film 26, after a worker places a new graphene heating film 26 on the base 1 and is clamped by the stop strip 29, the first pressure switch 17 is pressed by the graphene heating film 26, the infrared induction switch 18 detects that no arm extends into the lower part of the mounting frame 2, the first pressure switch 17 and the infrared induction switch 18 control the rotating motor 14 to rotate continuously, and the actions are repeated, so that full-automatic welding is realized, in the whole welding process, the worker only needs to place the graphene heating film 26 on the base 1 and take away the graphene heating film 26 after the graphene heating film 26 and the rivet 10 are pressed tightly by the long top column 5 and the short top column 6, the operation is simple, the time and the labor are saved, and the welding is carried out after the graphene heating film 26 and the rivet 10 are pressed tightly by the long top column 5 and the short top column 6, so that the graphene heating film 26 and the rivet 10 are prevented from shaking during welding, and the, the yield is high, the production cost of the graphene heating film 26 is also reduced, and the practicability is good.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (7)

1. The utility model provides a full-automatic welding set of graphite alkene heating film, includes base (1) and mounting bracket (2) of fixed mounting on base (1), be provided with mounting hole (25) and graphite alkene heating film (26) on the upper surface of base (1), it has rivet (10) to peg graft on graphite alkene heating film (26), rivet (10) lower extreme insert in mounting hole (25) and with mounting hole (25) sliding connection, its characterized in that: a mounting ring (9) is horizontally arranged right above the rivets (10), the mounting ring (9) is fixedly mounted on a ring frame (8), the ring frame (8) is vertically and roll-mounted on the base (1) through a rotating shaft (7), a rotating motor (14) for driving the rotating shaft (7) to rotate is further arranged on the base (1), a plurality of rivets (10) which are centrosymmetrically distributed are vertically inserted into the mounting ring (9), the upper end of each rivet (10) is connected with a welding wire (11), the other end of each welding wire (11) extends to the rotating shaft (7), a plurality of shielding sheets (13) which are centrosymmetrically distributed are further fixedly mounted on the mounting ring (9), and the number of the shielding sheets (13) is equal to that of the rivets (10); a pair of photoelectric switches (15) are mounted on the base (1) and the mounting rack (2), the photoelectric switches (15) are electrically connected with the rotating motor (14), and the shielding piece (13) can rotate to a position between the pair of photoelectric switches (15) along with the mounting ring (9) and trigger the photoelectric switches (15);

the upper surface of the base (1) is provided with a first pressure switch (17), and the graphene heating film (26) is flatly placed on the first pressure switch (17); a push rod motor (16) is vertically and fixedly installed at the bottom of the installation hole (25), and a push rod head at the upper end of the push rod motor (16) is contacted with the bottom of the rivet (10);

an electro-hydraulic push rod I (3) is vertically and fixedly mounted on the mounting frame (2), the electro-hydraulic push rod I (3) is electrically connected with a photoelectric switch (15), a push rod seat (4) is fixedly mounted on a push rod head at the lower end of the electro-hydraulic push rod I (3), a long ejection column (5) and a short ejection column (6) are mounted at the lower end of the push rod seat (4), the long ejection column (5) is located right above a welding wire (11), and the short ejection column (6) is located right above a rivet (10) and can move up and down to eject the rivet (10) out of the mounting ring (9); the lower surfaces of the long top column (5) and the short top column (6) are provided with a second pressure switch (24) and a groove (21), an electro-hydraulic push rod (22) is vertically and fixedly installed in the groove (21), a welding head (23) is fixedly installed on a push rod head at the lower end of the electro-hydraulic push rod (22), and the second pressure switch (24) is electrically connected with a second push rod motor (16);

the lower surface of the mounting rack (2) is further provided with a microcomputer time control switch (20), an infrared sensing switch (18) and a limit switch (19), the limit switch (19) is electrically connected with a push rod motor (16), the limit switch (19) can be triggered when the push rod seat (4) moves upwards, the infrared sensing switch (18) and a pressure switch I (17) are electrically connected with a rotating motor (14), and the microcomputer time control switch (20) is electrically connected with an electro-hydraulic push rod I (3) and an electro-hydraulic push rod II (22).

2. The full-automatic welding device for the graphene heating film according to claim 1, characterized in that: the rivet fixing device is characterized in that an installation ring (27) with the central axis coincident with the central axis of the installation ring (9) and the central axis of the rotating shaft (7) is fixedly installed on the ring frame (8), a plurality of wire releasing grooves (12) are installed on the installation ring (27), the number of the wire releasing grooves (12) is equal to that of the rivets (10), and one end of each welding wire (11) on each rivet (10) penetrates through the wire releasing grooves (12).

3. The full-automatic welding device for the graphene heating film according to claim 1, characterized in that: the shielding piece (13) is positioned on the outer side of the mounting ring (9).

4. The full-automatic welding device for the graphene heating film according to claim 1, characterized in that: an opening (28) is formed in the connection position of the inner side face of the mounting ring (9) and the rivet (10), and the welding wire (11) penetrates through the opening (28) and moves up and down along the opening (28).

5. The full-automatic welding device for the graphene heating film according to claim 1, characterized in that: the upper surface of base (1) is provided with shelves strip (29), graphite alkene heating film (26) pass through shelves strip (29) chucking on base (1).

6. The full-automatic welding device for the graphene heating film according to claim 1, characterized in that: the infrared induction switch (18) is located right above the graphene heating film (26).

7. The full-automatic welding device for the graphene heating film according to claim 1, characterized in that: the first pressure switch (17) is located at one end, close to the mounting hole (25), of the upper surface of the base (1).

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