CN117902838A - Metal glass composite pipe welding equipment - Google Patents

Abstract

The invention belongs to the technical field of welding, in particular to metal glass composite tube welding equipment, which comprises a first support frame, wherein the top of the first support frame is fixedly connected with a support disc, the support disc is rotationally connected with a rotating disc, the top of the rotating disc is provided with a first clamping mechanism for clamping a glass tube, the side wall of the first support frame is fixedly connected with a second support frame, the second support frame is connected with a flame spray nozzle in a sliding manner, the side wall of the first support frame is provided with a lifting groove, a lifting plate is connected in a sliding manner, one end of the lifting plate, which is far away from the first support frame, is provided with a second clamping mechanism for clamping the metal tube, the top of the lifting plate is provided with a shaping mechanism for shaping the connecting end of the metal tube and the glass tube, and an adjusting mechanism for controlling the position of the flame spray nozzle.

Description

Metal glass composite pipe welding equipment

Technical Field

The invention belongs to the technical field of welding, and particularly relates to a metal glass composite pipe welding device.

Background

The glass tube is a non-metal tube, is a glass with sodium oxide, boron oxide and silicon dioxide as basic components, has no toxic or side effect, greatly improves the mechanical property, the thermal stability, the water resistance, the alkali resistance, the acid resistance and other properties compared with common glass, and has good popularization value and social benefit.

The metal glass composite tube is formed by welding a glass tube and a metal tube, and in the prior art, in the process of welding the glass tube and the metal tube, the end part of the glass tube is heated to be in a molten state, and then the end part of the metal tube is spliced with the end part of the glass tube, so that the connection between the glass tube and the metal tube is realized.

But in the process of inserting the metal tube into the glass tube, the end part of the glass tube is expanded, the deformation of the glass tube is caused, the connection smoothness of the glass tube and the metal tube is affected, and the connection tightness of the glass tube and the metal tube is also affected.

To this end, the invention provides a metallic glass composite tube welding device.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention discloses metal glass composite pipe welding equipment which comprises a first support frame, wherein the top of the first support frame is fixedly connected with a support disc, the support disc is rotatably connected with a rotating disc, the top of the rotating disc is provided with a first clamping mechanism for clamping a glass pipe, one end of the support disc, which is close to the first support frame, is provided with a driving mechanism for driving the rotating disc, the side wall of the first support frame is fixedly connected with a second support frame, the second support frame is connected with a flame spray head in a sliding manner, the side wall of the first support frame is provided with a lifting groove, a lifting plate is connected in a sliding manner, the side wall of the first support frame is fixedly connected with a first cylinder, the end of a telescopic rod of the first cylinder is fixedly connected with the bottom of the lifting plate, one end, which is far away from the first support frame, of the lifting plate is provided with a second clamping mechanism for clamping the metal pipe, and the top of the lifting plate is provided with a shaping mechanism for shaping the connecting end of the metal pipe and the glass pipe and an adjusting mechanism for controlling the position of the flame spray head.

Preferably, the first clamping mechanism comprises three electric cylinders, the three electric cylinders are fixedly connected with the top of the rotating disc at equal intervals, and clamping plates I are fixedly connected to the end parts of telescopic rods of the three electric cylinders.

Preferably, the driving mechanism comprises a motor, the motor is fixedly connected to the bottom of one end of the supporting disc, which is close to the first supporting frame, a first gear is fixedly connected to the rotating shaft of the motor after penetrating through the top of the supporting disc, and the first gear is meshed with the rotating disc.

Preferably, the second clamping mechanism comprises a 匚 -shaped groove, two cylinders II are symmetrically and fixedly connected to two sides of the 匚 -shaped groove, clamping plates II are fixedly connected to telescopic rods of the two cylinders II after penetrating through the side walls of the 匚 -shaped groove, and rolling shafts are rotatably connected to the side walls of the clamping plates II.

Preferably, the shaping mechanism comprises a third supporting frame, the third supporting frame is fixedly connected to the top of the lifting plate, a cavity is formed in the top of the third supporting frame, one end, close to the first supporting frame, of the cavity is fixedly connected with a memory metal strip, one end, far away from the first supporting frame, of the cavity is slidably connected with an extrusion block, and the memory metal strip is fixedly connected with the extrusion block.

Preferably, the adjusting mechanism comprises a jacking plate, the jacking plate is fixedly connected to the top of the lifting plate, the jacking plate is in sliding connection with the second supporting frame, a push-pull piece is arranged on the jacking plate and used for driving the flame spray head to adjust the position.

Preferably, the push-pull member comprises a chute and a straight groove, the chute and the straight groove are all arranged on the supporting plate in a penetrating mode, the chute is communicated with the straight groove, a cylindrical shaft is connected in the chute in a sliding mode, and the cylindrical shaft is fixedly connected to the side wall of the flame spray head.

Preferably, two cooling boxes are symmetrically and fixedly connected to the side wall of the third support frame, cooling liquid is contained in the two cooling boxes, a liquid supply assembly is arranged on the side wall of the second support frame, and the liquid supply assembly is used for conveying the cooling liquid.

Preferably, the liquid supply assembly comprises a cooling liquid tank, a piston plate is slidably connected in the cooling liquid tank, a conveying pipe II is fixedly connected to the bottom of the cooling liquid tank, two conveying pipes I are fixedly connected to the bottom of the conveying pipe II, one ends of the two conveying pipes I, away from the conveying pipe II, are respectively communicated with the bottom of the cooling box in the corresponding position, and a linkage piece is arranged at one end, away from the cooling liquid tank, of the piston plate and used for controlling sliding of the piston plate.

Preferably, the linkage piece comprises a rack II, a support block and a rack I, wherein the rack II is fixedly connected to the side wall of the flame spray nozzle, the support block is fixedly connected to the side wall of the support frame II, the support block is rotatably connected with a gear II, the rack I is fixedly connected to the piston plate, and the gear II is meshed with the rack I and the rack II.

The beneficial effects of the invention are as follows:

According to the metal glass composite pipe welding equipment, the shaping mechanism is arranged, after the metal pipe and the glass pipe are in butt joint, the driving mechanism drives the metal pipe and the glass pipe to rotate together, and the shaping mechanism shapes the connecting end of the glass pipe and the metal pipe, so that the connecting smoothness of the glass pipe and the metal pipe is improved, and the connecting tightness of the glass pipe and the metal pipe is improved.

According to the metal glass composite pipe welding equipment, the liquid supply assembly is arranged, so that the liquid supply assembly discharges the cooling liquid in the cooling box in the process that the lifting plate drives the support frame III to be upward, and the cooling liquid in the cooling box is prevented from being heated in the process that the flame spray nozzle heats the support frame III, so that the subsequent cooling liquid is influenced to cool the support frame III.

Drawings

The invention is further described below with reference to the accompanying drawings.

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

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

FIG. 3 is a schematic view of a lifter plate in accordance with the present invention;

FIG. 4 is a schematic diagram of the connection of the top plate and the second support frame in the present invention;

FIG. 5 is a schematic diagram of a second support frame connected to a welding head according to the present invention;

FIG. 6 is a schematic view of a split coolant tank of the present invention;

FIG. 7 is a schematic diagram of the connection of a coolant tank to a coolant cassette of the present invention;

Fig. 8 is a schematic view of three partial structural subdivisions of the support frame of the present invention.

In the figure: 1. a first supporting frame; 2. a support plate; 3. a rotating disc; 4. an electric cylinder; 5. a clamping plate I; 6. a motor; 7. a first gear; 9. a lifting groove; 10. a lifting plate; 11. a first cylinder; 12. a second cylinder; 13. a clamping plate II; 18. a second supporting frame; 19. a flame spray head; 20. a holding plate; 21. a chute; 22. a straight groove; 23. a cylindrical shaft; 24. a third supporting frame; 25. a memory metal strip; 26. extruding a block; 27. a cooling box; 28. a first conveying pipe; 29. a second conveying pipe; 30. a cooling liquid tank; 31. a piston plate; 32. a support block; 33. a second gear; 34. a first rack; 35. and a second rack.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Referring to fig. 1, fig. 2 and fig. 3, the welding device for metal glass composite tubes according to the embodiment of the invention comprises a first support frame 1, a first support plate 2 is fixedly connected to the top of the first support frame 1, a rotating plate 3 is rotatably connected to the first support plate 2, a first clamping mechanism for clamping a glass tube is arranged at the top of the rotating plate 3, a driving mechanism for driving the rotating plate 3 is arranged at one end, close to the first support frame 1, of the support plate 2, a second support frame 18 is fixedly connected to the side wall of the first support frame 1, a flame spray head 19 is slidingly connected to the second support frame 18, a lifting groove 9 is formed in the side wall of the first support frame 1, a lifting plate 10 is slidingly connected to the lifting groove 9, a first cylinder 11 is fixedly connected to the side wall of the first support frame 1, the end of a telescopic rod of the first cylinder 11 is fixedly connected to the bottom of the lifting plate 10, a second clamping mechanism for clamping the metal tube is arranged at one end, far away from the first support frame 1, and a shaping mechanism for shaping the metal tube and an adjusting mechanism for controlling the position of the flame spray head 19 are arranged at the top of the lifting plate 10; during operation, when welding metal pipe and glass pipe, firstly, place the glass pipe in supporting disk 2, and fix it through first fixture, place the metal pipe in the tip of cylinder one 11 and fix it through the second fixture, then start actuating mechanism and flame shower nozzle 19, flame shower nozzle 19 heats the tip of glass pipe, through actuating mechanism's setting, be favorable to driving the metal pipe and rotate, be favorable to the tip of flame shower nozzle 19 to be heated evenly, when the tip of glass pipe is in molten state, flame shower nozzle 19 stops heating it, start cylinder one 11, cylinder one promotes lifter plate 10 and upwards moves, drive the metal pipe upwards peg graft in the tip of glass pipe, realize the welding of metal pipe and glass pipe, in the in-process that lifter plate 10 upwards moved, adjustment mechanism adjusts the position of flame shower nozzle 19, be favorable to avoiding flame shower nozzle 19 to restrict shaping mechanism upwards, after metal pipe and glass pipe butt joint are accomplished, actuating mechanism drives the metal pipe and glass pipe and rotates together, shaping mechanism carries out shaping to the glass pipe and the link of metal pipe, on the one side, be favorable to improving the glass pipe and metal pipe's connection degree, on the other hand, be favorable to improving the tightness of glass pipe connection with metal pipe.

Referring to fig. 1 and 2, the first clamping mechanism comprises three electric cylinders 4, the three electric cylinders 4 are fixedly connected with the top of the rotating disc 3 at equal intervals, and the ends of telescopic rods of the three electric cylinders 4 are fixedly connected with a clamping plate I5; during operation, after the glass tube is placed in the supporting disc 2 and is highly accurate, three groups of electric cylinders 4 are started simultaneously, and the telescopic rods of the three groups of electric cylinders 4 drive the clamping plates I5 to clamp the glass tube, so that the glass tube is fixed, and the stability of the welding process of the glass tube and the metal tube is improved.

Referring to fig. 1, the driving mechanism comprises a motor 6, wherein the motor 6 is fixedly connected to the bottom of one end of the supporting disc 2, which is close to the first supporting frame 1, a rotating shaft of the motor 6 penetrates through the top of the supporting disc 2 and is fixedly connected with a first gear 7, and the first gear 7 is meshed with the rotating disc 3; during operation, after the glass tube is placed in the supporting disc 2 and fixed, the motor 6 is started, the rotating shaft of the motor 6 drives the gear I7 to rotate, and then the rotating disc 3 and the glass tube are driven to rotate together, so that the heating uniformity of the glass tube is improved in the heating process of the flame spray head 19 on the glass tube.

As shown in fig. 2 and 3, the second clamping mechanism comprises a 匚 type groove, two sides of the 匚 type groove are symmetrically and fixedly connected with two air cylinders II 12, telescopic rods of the two air cylinders II 12 penetrate through the side wall of the 匚 type groove and are fixedly connected with a clamping plate II 13, and the side wall of the clamping plate II 13 is rotatably connected with a rolling shaft; during operation, after the metal tube is placed in 匚 type grooves and the position is adjusted, two cylinders II 12 are started, telescopic rods of the two cylinders II 12 drive clamping plates II 13 to clamp and fix the metal tube, stability in the welding process of the glass tube and the metal tube is improved, and after the metal tube is in butt joint with the glass tube, the metal tube can rotate together with the glass tube through the arrangement of the rolling shafts.

Referring to fig. 1,3 and 8, the shaping mechanism includes a third support frame 24, the third support frame 24 is fixedly connected to the top of the lifting plate 10, a cavity is formed in the top of the third support frame 24, a memory metal strip 25 is fixedly connected to one end of the cavity, which is close to the first support frame 1, an extrusion block 26 is slidably connected to one end of the cavity, which is far away from the first support frame 1, and the memory metal strip 25 is fixedly connected with the extrusion block 26; during operation, the first cylinder 11 pushes the lifting plate 10 to move upwards, meanwhile, the third support frame 24 is driven to move upwards together, in the process of moving the lifting plate 10 upwards, the position of the flame spray head 19 is adjusted by the adjusting mechanism, so that the flame spray head 19 slides towards one end far away from the glass tube, the flame spray head 19 is prevented from limiting to prevent the third support frame 24 from moving upwards, when the butt joint of the metal tube and the glass tube is completed, the extrusion block 26 is close to the end part of the glass tube, the flame spray head 19 is arranged on one side of the third support frame 24, then the flame spray head 19 and the motor 6 are started again, the glass tube and the metal tube rotate together, the flame spray head 19 heats the third support frame 24, the memory metal strip 25 deforms and pushes the extrusion block 26 to move, the extrusion block 26 is close to and extrudes the end part of the glass tube, and correction and shaping of the glass tube in a molten state are facilitated, on one hand, and on the other hand, connection smoothness of the glass tube and the metal tube is facilitated to be improved.

After the glass tube in the molten state is subjected to correction molding, the flame spray head 19 stops heating the third support frame 24, and after the temperature of the third support frame 24 is reduced, the memory metal strip 25 is restored to the initial state and drives the extrusion block 26 to restore to the processing state.

As shown in fig. 1, 2 and 3, the adjusting mechanism comprises a supporting plate 20, the supporting plate 20 is fixedly connected to the top of the lifting plate 10, the supporting plate 20 is slidably connected with the second support frame 18, and a push-pull member is arranged on the supporting plate 20 and is used for driving the flame spray nozzle 19 to adjust the position; during operation, in the process that the lifting plate 10 moves upwards, the supporting plate 20 drives the flame spray head 19 to slide through the push-pull piece, so that the flame spray head 19 moves towards one end far away from the glass tube, and the flame spray head 19 is beneficial to avoiding blocking the support frame three 24 upwards in the process that the lifting plate 10 drives the support frame three 24 to move upwards.

Referring to fig. 3, the push-pull member includes a chute 21 and a straight groove 22, both the chute 21 and the straight groove 22 are penetrating through the top plate 20, the chute 21 and the straight groove 22 are mutually communicated, a cylindrical shaft 23 is slidably connected in the chute 21, and the cylindrical shaft 23 is fixedly connected to the side wall of the flame spray head 19; in operation, in the process of upward movement of the lifting plate 10, the supporting plate 20 is upward, the cylindrical shaft 23 slides in the chute 21, the cylindrical shaft 23 pulls the flame spray head 19, so that the flame spray head 19 moves towards one end far away from the glass tube, after the cylindrical shaft 23 slides into the straight groove 22, the flame spray head 19 does not move any more, and the lifting plate 10 continues upward, so that the metal tube is in butt joint with the glass tube.

As shown in fig. 3, 5 and 7, two cooling boxes 27 are symmetrically and fixedly connected to the side wall of the third support frame 24, cooling liquid is contained in the two cooling boxes 27, and a liquid supply assembly is arranged on the side wall of the second support frame 18 and used for conveying the cooling liquid; during operation, in lifting plate 10 drives support frame three 24 ascending, and the liquid supply subassembly discharges the coolant liquid in the cooling box 27, is favorable to avoiding flame shower nozzle 19 to also heat the coolant liquid in the cooling box 27 to the in-process of support frame three 24 heating, influences the cooling of follow-up coolant liquid to support frame three 24.

Referring to fig. 4 to 7, the liquid supply assembly includes a cooling liquid tank 30, a piston plate 31 is slidably connected in the cooling liquid tank 30, a second conveying pipe 29 is fixedly connected to the bottom in the cooling liquid tank 30, a first conveying pipe 28 is fixedly connected to the bottom of the second conveying pipe 29, one ends of the first conveying pipes 28, which are far away from the second conveying pipe 29, are respectively communicated with the bottom of the cooling box 27 at corresponding positions, a linkage member is arranged at one end of the piston plate 31, which is far away from the cooling liquid tank 30, and the linkage member is used for controlling sliding of the piston plate 31; during operation, in the process that the flame spray head 19 moves towards one end far away from the glass tube, the linkage piece drives the piston plate 31 to slide towards one end far away from the conveying pipe II 29, so that cooling liquid in the cooling box 27 is pumped away, the cooling liquid enters the cooling liquid box 30 for temporary storage through the conveying pipe II 29 and the conveying pipe I28, the cooling liquid in the cooling box 27 is prevented from being heated in the process that the flame spray head 19 heats the support frame III 24, the cooling of the support frame III 24 is influenced by subsequent cooling liquid, after the glass tube and the metal tube are welded, in the process that the lifting plate 10 descends to be in a state, the linkage piece pushes the piston plate 31, the cooling liquid in the cooling liquid box 30 is pushed into the cooling box 27 by the piston plate 31, the cooling of the support frame III 24 is facilitated, the cooling of the memory metal strip 25 is facilitated to be restored to an initial state, and the extrusion block 26 is driven to be restored to the initial state.

Referring to fig. 4, the linkage member includes a second rack 35, a support block 32 and a first rack 34, the second rack 35 is fixedly connected to a side wall of the flame spray head 19, the support block 32 is fixedly connected to a side wall of the second support frame 18, a second gear 33 is rotatably connected to the support block 32, the first rack 34 is fixedly connected to the piston plate 31, and the second gear 33 is meshed with the first rack 34 and the second rack 35; during operation, in the process that the flame spray head 19 moves towards one end far away from the glass tube, the rack II 35 drives the rack I34 to move through the gear II 33, so that the piston plate 31 slides towards one end far away from the conveying tube II 29, cooling liquid in the cooling box 27 is pumped away, the cooling liquid enters the conveying tube I28 through the conveying tube II to enter the cooling liquid box 30 for temporary storage, after the glass tube and the metal tube are welded, in the process that the lifting plate 10 descends to be in a state, the rack II 35 drives the rack I34 to move through the gear II 33, so that the piston plate 31 pushes the cooling liquid in the cooling liquid box 30 into the cooling box 27, and cooling of the support frame III 24 is facilitated.

Working principle: during operation, when welding metal tube and glass tube, at first place the glass tube in supporting disk 2 and highly accurate back, start three group's electric jar 4 simultaneously, the telescopic link of three group's electric jar 4 drives splint one 5 and presss from both sides tight with the glass tube, realizes the fixed of glass tube, is favorable to improving the stability of glass tube and metal tube welding in-process.

After the metal tube is placed in the 匚 -shaped groove and the position is adjusted, the two air cylinders II 12 are started, the telescopic rods of the two air cylinders II 12 drive the clamping plates II 13 to clamp and fix the metal tube, stability in the welding process of the glass tube and the metal tube is improved, and the metal tube can rotate together with the glass tube after the metal tube is in butt joint with the glass tube through the arrangement of the rolling shafts.

Then, the motor 6 and the flame spray head 19 are started, the flame spray head 19 heats the end part of the glass tube, and the arrangement of the motor 6 is beneficial to driving the metal tube to rotate, so that the end part of the flame spray head 19 is uniformly heated.

When the end part of the glass tube is in a molten state, the flame spray head 19 stops heating the glass tube, the first cylinder 11 is started, the first cylinder 11 pushes the lifting plate 10 to move upwards, the metal tube is driven to be spliced at the end part of the glass tube upwards, and the welding of the metal tube and the glass tube is realized.

In the process of upward movement of the lifting plate 10, the supporting plate 20 is upward, the cylindrical shaft 23 slides in the chute 21, the cylindrical shaft 23 pulls the flame spray head 19 so that the flame spray head 19 moves towards the end far away from the glass tube, and after the cylindrical shaft 23 slides into the straight groove 22, the flame spray head 19 does not move any more, and the lifting plate 10 continues upward so that the metal tube is in butt joint with the glass tube.

After the metal tube is in butt joint with the glass tube, the flame spray head 19 and the motor 6 are started again, the glass tube rotates together with the metal tube, the flame spray head 19 heats the support frame III 24, so that the memory metal strip 25 deforms and pushes the extrusion block 26 to move, the extrusion block 26 is close to and extrudes the end part of the glass tube, correction and shaping of the glass tube in a molten state are facilitated, on one hand, the connection smoothness of the glass tube and the metal tube is facilitated to be improved, and on the other hand, the connection compactness of the glass tube and the metal tube is facilitated to be improved.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a metallic glass composite pipe welding equipment which characterized in that: including support frame one (1), the top fixedly connected with support dish (2) of support frame one (1), rotate on support dish (2) and be connected with rotor disk (3), the top of rotor disk (3) is provided with the first fixture who is used for centre gripping glass tube, the one end that support dish (2) is close to support frame one (1) is provided with the actuating mechanism who is used for driving rotor disk (3), the lateral wall fixedly connected with support frame two (18) of support frame one (1), sliding connection has flame shower nozzle (19) on support frame two (18), lifting groove (9) have been seted up on the lateral wall of support frame one (1), sliding connection has lifter plate (10) on lifting groove (9), fixedly connected with cylinder one (11) on the lateral wall of support frame one (1), the telescopic link tip and the bottom fixedly connected with of lifter plate (10) of cylinder one (11), the one end that lifter plate (10) kept away from support frame one (1) is provided with the second fixture that is used for centre gripping metal tube, the top of lifter plate (10) is provided with the shaping mechanism and the adjustment mechanism of flame shower nozzle (19) that carry out the shaping to metal tube and glass tube's link.

2. A metallic glass composite tube welding apparatus as in claim 1, wherein: the first clamping mechanism comprises three electric cylinders (4), the three electric cylinders (4) are fixedly connected with the top of the rotating disc (3) at equal intervals, and clamping plates I (5) are fixedly connected to the end parts of telescopic rods of the three electric cylinders (4).

3. A metallic glass composite tube welding apparatus as in claim 1, wherein: the driving mechanism comprises a motor (6), the motor (6) is fixedly connected to the bottom of one end, close to the first support frame (1), of the support disc (2), a rotating shaft of the motor (6) penetrates through the top of the support disc (2), a first gear (7) is fixedly connected to the rear of the top of the support disc, and the first gear (7) is meshed with the rotating disc (3).

4. A metallic glass composite tube welding apparatus as in claim 1, wherein: the second clamping mechanism comprises a 匚 -shaped groove, two air cylinders II (12) are symmetrically and fixedly connected to two sides of the 匚 -shaped groove, clamping plates II (13) are fixedly connected to telescopic rods of the two air cylinders II (12) after penetrating through the side walls of the 匚 -shaped groove, and rolling shafts are rotatably connected to the side walls of the clamping plates II (13).

5. A metallic glass composite tube welding apparatus as in claim 1, wherein: the shaping mechanism comprises a third supporting frame (24), the third supporting frame (24) is fixedly connected to the top of the lifting plate (10), a cavity is formed in the top of the third supporting frame (24), one end, close to the first supporting frame (1), of the cavity is fixedly connected with a memory metal strip (25), one end, far away from the first supporting frame (1), of the cavity is slidably connected with an extrusion block (26), and the memory metal strip (25) is fixedly connected with the extrusion block (26).

6. A metallic glass composite tube welding apparatus as in claim 1, wherein: the adjusting mechanism comprises a jacking plate (20), the jacking plate (20) is fixedly connected to the top of the lifting plate (10), the jacking plate (20) is in sliding connection with the second support frame (18), a push-pull piece is arranged on the jacking plate (20), and the push-pull piece is used for driving the flame spray head (19) to adjust positions.

7. A metallic glass composite tube welding apparatus as in claim 6, wherein: the push-pull piece comprises a chute (21) and a straight groove (22), the chute (21) and the straight groove (22) are all arranged on the supporting plate (20) in a penetrating mode, the chute (21) and the straight groove (22) are communicated with each other, a cylindrical shaft (23) is connected in the chute (21) in a sliding mode, and the cylindrical shaft (23) is fixedly connected to the side wall of the flame spray head (19).

8. A metallic glass composite tube welding apparatus as recited in claim 7, wherein: two cooling boxes (27) are symmetrically and fixedly connected to the side wall of the third support frame (24), cooling liquid is contained in the two cooling boxes (27), a liquid supply assembly is arranged on the side wall of the second support frame (18), and the liquid supply assembly is used for conveying the cooling liquid.

9. A metallic glass composite tube welding apparatus as in claim 8, wherein: the cooling liquid supply assembly comprises a cooling liquid tank (30), a piston plate (31) is connected in the cooling liquid tank (30) in a sliding mode, a conveying pipe II (29) is fixedly connected to the bottom in the cooling liquid tank (30), two conveying pipes I (28) are fixedly connected to the bottom of the conveying pipe II (29), one ends, away from the conveying pipe II (29), of the two conveying pipes I (28) are respectively communicated with the bottom of a cooling box (27) at the corresponding position, and a linkage piece is arranged at one end, away from the cooling liquid tank (30), of the piston plate (31) and used for controlling sliding of the piston plate (31).

10. A metallic glass composite tube welding apparatus as in claim 9, wherein: the linkage piece comprises a second rack (35), a supporting block (32) and a first rack (34), wherein the second rack (35) is fixedly connected to the side wall of the flame spraying nozzle (19), the supporting block (32) is fixedly connected to the side wall of the second support frame (18), a second gear (33) is rotatably connected to the supporting block (32), the first rack (34) is fixedly connected to the piston plate (31), and the second gear (33) is meshed with the first rack (34) and the second rack (35).