CN219925070U - Intelligent continuous truss welding structure - Google Patents

Abstract

The utility model provides an intelligent continuous truss welding structure, which relates to the technical field of welding and comprises a machine table, wherein a wire rail is arranged on the machine table, a first sliding block is connected with the wire rail in a sliding manner, a second supporting plate is arranged above the first sliding block, a first supporting plate is arranged on the side of the second supporting plate, welding components are arranged above the first supporting plate and the second supporting plate, the welding components comprise supporting seats, the supporting seats are rotationally connected with rolling shafts, a mounting plate is arranged above the rolling shafts, a movable adjusting component is arranged at the end part below the mounting plate, a lifting driving component is arranged above the mounting plate, a first adjusting component is arranged above the lifting driving component, a welding gun and a second adjusting component are arranged on the first adjusting component, and a wire feeding nozzle is arranged on the second adjusting component. The utility model has the advantages that the welding position and the welding guns are randomly adjusted according to the requirements, so that the working efficiency is improved.

Description

Intelligent continuous truss welding structure

Technical Field

The utility model relates to the technical field of welding, in particular to an intelligent continuous truss welding structure.

Background

The truss is used more and more frequently in modern society, truss is indispensable in the construction of stage, the truss is formed through welding by a plurality of truss stay tubes, and the welding is the material (same kind or heterogeneous) of welded work piece through heating or pressurization or both and use, and filler material, make the material of work piece reach the combination between atoms and form permanent connection, the truss stay tube generally needs relatively thick, be difficult for the rupture when being convenient for connect with other truss stay tubes, but the cost of manufacture is higher, so when making truss stay tube, the thick aluminium spindle nose of welding at thinner aluminum pipe both ends, reduce cost and difficult rupture when connecting, and need the manual work to do work piece length location before welding, need readjustment location when changing work piece length.

Among the prior art, chinese patent literature (CN 106736091a, patent name: a welding equipment for truss) technical scheme is disclosed, "including workstation, a motor, the rotating electrical machines, welder, the power, control panel, cutting device and fixing device, fixing device includes fixed plate, flexible bracing piece, rotatory telescopic link and fixed chuck, the four corners of workstation bottom all is provided with the universal wheel, the motor, rotating electrical machines and power are all installed inside the workstation, control panel installs the side at the workstation outside, the rotation axis is installed to the upper end of rotating electrical machines, the top of rotation axis links to each other with the bottom of revolving stage and the revolving stage is located the central point of workstation upper surface, the upper surface of workstation is provided with the slide rail, flexible bracing piece slidable mounting is on the slide rail, rotatory telescopic link is installed in the upper portion of flexible bracing piece and rotatory telescopic link is 90 degrees with flexible bracing piece, the fixed plate is installed in rotatory bracing piece and is close to revolving stage department, fixed chuck installs on the fixed plate and fixes the chuck, the welder is located the rear portion of workstation upper surface and is connected with the feed tube on the welder, cutting device is located the front portion of workstation upper surface. "

In combination with the description content and the attached drawing of the patent document, the welding gun of the welding device is positioned at the rear part of the upper surface of the workbench, the feeding pipe is connected to the welding gun, and the welding gun and the feeding pipe are fixed in position, so that the welding position is fixed, the welding position cannot be randomly adjusted according to the welding requirement, only one welding gun of the welding device is arranged, and the welding is inconvenient while the working efficiency is low.

Disclosure of Invention

The utility model overcomes the defects in the prior art, and provides an intelligent continuous truss welding structure which can overcome the defects in the prior art in the background art.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model provides an intelligence continuous truss welded structure, includes the board, be provided with the line rail on the board, line rail sliding connection has first slider, first slider top is provided with the second backup pad, second backup pad side is provided with first backup pad, first backup pad with second backup pad top all is provided with welding assembly, welding assembly includes the supporting seat, the supporting seat rotates and is connected with the roll axis, the roll axis top is provided with the mounting panel, mounting panel below end is provided with removes adjustment subassembly, the mounting panel top is provided with lift drive assembly, lift drive assembly top is provided with first adjustment subassembly, first adjustment subassembly is provided with welder and second adjustment subassembly, second adjustment subassembly is provided with the wire feed mouth.

Still further, first adjusting part includes welder fixed plate, welder fixed plate is provided with first screw rod, first screw rod threaded connection has first control regulating plate, first control regulating plate is provided with the second screw rod, second screw rod threaded connection has first upper and lower regulating plate, first upper and lower regulating plate is provided with the third screw rod, third screw rod threaded connection has the second to control regulating plate, the regulating plate is provided with the angle adjusting plate about the second, the angle adjusting plate side is provided with the clamp press plate, the clamp press plate is provided with welder.

Still further, the second adjusting component includes the fourth screw rod, the fourth screw rod sets up on the angle regulating plate, fourth screw rod threaded connection has the upper and lower regulating plate of second, the regulating plate is provided with the fifth screw rod about the second, the regulating plate is controlled to the fifth screw rod threaded connection has the third, the regulating plate is controlled to the third is provided with the wire mouth mounting panel, the wire mouth mounting panel is provided with send the wire mouth.

Still further, remove the adjustment subassembly and include the cylinder tailboard, the cylinder tailboard is provided with the locking axle, the locking axle is provided with the fifth cylinder, the cylinder pole of fifth cylinder is connected with the fisheye joint, the fisheye joint is provided with the cylinder round pin.

Further, the lifting driving assembly comprises a sixth air cylinder, a connecting plate is arranged above an air cylinder rod of the sixth air cylinder, and the connecting plate is arranged below the welding gun fixing plate; the sixth air cylinder is arranged above the mounting plate, one end below the mounting plate is provided with a wire feeder fixing plate, and the other end below the mounting plate is provided with the air cylinder pin; the wire feeder fixing plate is provided with a wire feeder, the wire feeder is provided with an iron wire, and the iron wire is connected with the wire feeder nozzle.

Still further, a rotary clamping assembly is arranged above the first supporting plate, a supporting assembly is arranged on the side of the rotary clamping assembly, a sliding plate is connected above the second supporting plate in a sliding manner, a clamping assembly is arranged above the sliding plate, and the rotary clamping assembly and the clamping assembly are arranged oppositely; one side of the clamping component is provided with a limiting component, and the other side of the clamping component is provided with a movable fixing component.

Still further, the rotary clamping assembly comprises a motor, the motor is connected with a speed reducer, the speed reducer is connected with a driving wheel, the driving wheel is connected with a synchronous belt, the synchronous belt is connected with a driven wheel, the driven wheel is connected with a first driven shaft, the first driven shaft is connected with a first driven disc, and the first driven disc is connected with a first positioning head; the first driven shaft is rotationally connected with a first supporting vertical plate, a first air cylinder is arranged on the side edge of the first supporting vertical plate, and an air cylinder rod of the first air cylinder props against the upper portion of the first driven plate.

Still further, the clamping assembly comprises a second supporting vertical plate, a second driven shaft is rotatably connected to the second supporting vertical plate, a second driven disc is connected to the second driven shaft, and a second positioning head is connected to the second driven disc; the side of the second supporting vertical plate is provided with a second air cylinder, and an air cylinder rod of the second air cylinder props against the upper part of the second driven plate.

Still further, the limiting component comprises a first bracket bottom plate, the first bracket bottom plate is arranged on the second supporting plate, the first bracket bottom plate is provided with a third cylinder, the third cylinder is in an inclined state, and a cylinder rod of the third cylinder is used for propping against the aluminum pipe; the support assembly comprises a second bracket bottom plate, a plurality of bearings are arranged above the second bracket bottom plate and the first bracket bottom plate, and the bearings are arranged below the aluminum pipe.

Still further, the moving fixing assembly includes a fourth cylinder, a cylinder rod of which is used to abut against the second supporting riser; the sliding rails are arranged on two sides of the second supporting plate, a plurality of second sliding blocks are arranged below the sliding plate, and the second sliding blocks are connected to the sliding rails in a sliding mode.

Compared with the prior art, the utility model has the beneficial effects that:

through adjustment straight line linear rail and first slider, carry out quick location, after installing aluminium spindle nose and aluminum pipe, through removing fixed subassembly fixed position, first backup pad and second backup pad top all are provided with welding assembly, a plurality of welding assembly can effectually improve work efficiency, welding assembly is provided with first adjusting part, first adjusting part is provided with welder and second adjusting part, second adjusting part is provided with the wire feed mouth, when needs change welding position, can reciprocate left and right through first adjusting part and second adjusting part, the position of welder and wire feed mouth is adjusted at will, positioning speed is fast, length when welding, thereby realize efficient production efficiency.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, in which:

FIG. 1 is a general view of an intelligent continuous truss welding structure according to the present utility model;

FIG. 2 is a schematic view of a rotary clamping assembly, spacing assembly, welding assembly, support assembly, sliding plate, moving fixing assembly, first support plate, second support plate, aluminum tube, aluminum stub shaft, sliding rail and second slider;

FIG. 3 is a schematic view of a welding assembly;

FIG. 4 is a schematic view of a lift drive assembly and a mounting plate;

FIG. 5 is a schematic view of a support base, a roll shaft and a mounting plate;

FIG. 6 is a schematic view of a first screw, a first left-right adjustment plate, and a second screw;

FIG. 7 is a schematic view of a first adjustment assembly, a second adjustment assembly, a welding gun, and a wire feeder;

FIG. 8 is a schematic view of a second adjustment assembly and a yarn feeding nozzle;

FIG. 9 is a schematic diagram of a movement adjustment assembly;

FIG. 10 is a schematic view of a rotational clamping assembly, a support assembly, and a first support plate;

FIG. 11 is a schematic view of a rotational clamping assembly;

FIG. 12 is a schematic view of a clamping assembly, a limiting assembly, a sliding plate, a movable fixing assembly, a second support plate, a sliding rail and a second slider;

fig. 13 is a schematic view of a clamping assembly.

In the figure: 0-machine table, 001-linear rail, 1-rotary clamping assembly, 101-motor, 102-speed reducer, 103-driving wheel, 104-synchronous belt, 105-driven wheel, 106-first driven shaft, 107-first driven disc, 108-first positioning head, 109-first supporting vertical plate, 110-first cylinder, 2-clamping assembly, 201-second supporting vertical plate, 202-second driven shaft, 203-second driven disc, 204-second positioning head, 205-second cylinder, 3-limiting assembly, 301-first bracket bottom plate, 302-third cylinder, 4-welding assembly, 401-supporting seat, 402-rolling shaft, 403-mounting plate, 404-movement adjusting assembly, 4041-cylinder tail plate, 4042-locking shaft, 4043-fifth cylinder, 4044-fisheye fitting, 4045-cylinder pin, 405-lifting drive assembly, 4051-sixth cylinder, 4052-connecting plate, 406-first adjustment assembly, 4061-welding gun fixing plate, 4062-first screw, 4063-first left-right adjustment plate, 4064-second screw, 4065-first up-down adjustment plate, 4066-third screw, 4067-second left-right adjustment plate, 4068-angle adjustment plate, 4069-clamping press plate, 407-welding gun, 408-second adjustment assembly, 4081-fourth screw, 4082-second up-down adjustment plate, 4083-fifth screw, 4084-third left-right adjustment plate, 4085-wire feeder mounting plate, 409-wire feeder fixing plate, 410-wire feeder fixing plate, 411-wire feeder, 5-support assembly, 501-second carrier base plate, 502-bearing, 6-slide plate, 7-moving stationary assembly, 701-fourth cylinder, 8-first backup pad, 9-second backup pad, 10-aluminum pipe, 11-aluminium spindle nose, 12-slide rail, 13-second slider, 14-first slider.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Example 1

As shown in fig. 1 to 9, an intelligent continuous truss welding structure comprises a machine 0, a wire rail 001 is arranged on the machine 0, the wire rail 001 is connected with a first sliding block 14 in a sliding manner, a second supporting plate 9 is arranged above the first sliding block 14, the position of the second supporting plate 9 is conveniently adjusted according to the length of an aluminum pipe 10, a first supporting plate 8 is arranged on the side of the second supporting plate 9, a welding component 4 is arranged above the first supporting plate 8 and the second supporting plate 9, the welding component 4 comprises a supporting seat 401, the supporting seat 401 is rotationally connected with a rolling shaft 402, a mounting plate 403 is arranged above the rolling shaft 402, a movable adjusting component 404 is arranged at the end part below the mounting plate 403, a lifting driving component 405 is arranged above the mounting plate 403, a first adjusting component 406 is arranged above the lifting driving component 405, a welding gun 407 and a second adjusting component 408 are arranged, and a wire feeding nozzle 409 is arranged on the second adjusting component 408.

The first adjusting assembly 406 comprises a welding gun fixing plate 4061, the welding gun fixing plate 4061 is provided with a first screw 4062, the first screw 4062 is in threaded connection with a first left-right adjusting plate 4063, the first left-right adjusting plate 4063 is provided with a second screw 4064, the second screw 4064 is in threaded connection with a first up-down adjusting plate 4065, the first up-down adjusting plate 4065 is provided with a third screw 4066, the third screw 4066 is in threaded connection with a second left-right adjusting plate 4067, the second left-right adjusting plate 4067 is provided with an angle adjusting plate 4068, the side edge of the angle adjusting plate 4068 is provided with a clamping pressing plate 4069, and the clamping pressing plate 4069 is provided with a welding gun 407; the second adjusting component 408 includes a fourth screw 4081, the fourth screw 4081 is disposed on the angle adjusting plate 4068, the fourth screw 4081 is in threaded connection with a second upper and lower adjusting plate 4082, the second upper and lower adjusting plate 4082 is provided with a fifth screw 4083, the fifth screw 4083 is in threaded connection with a third left and right adjusting plate 4084, the third left and right adjusting plate 4084 is provided with a wire nozzle mounting plate 4085, the wire nozzle mounting plate 4085 is provided with a wire feeding nozzle 409, and the first adjusting component 406 operates on the principle that: the first left-right adjusting plate 4063 is rotated by hand, so that the first left-right adjusting plate 4063 moves left and right on the first screw 4062, the welding gun 407 and the wire feeding nozzle 409 can be adjusted left and right at the same time, the first up-down adjusting plate 4065 is rotated by hand, so that the first up-down adjusting plate 4065 moves up and down on the second screw 4064, the welding gun 407 and the wire feeding nozzle 409 can be adjusted up and down at the same time, the second left-right adjusting plate 4067 is rotated by hand, so that the second left-right adjusting plate 4067 moves left and right on the third screw 4066, and the welding gun 407 and the wire feeding nozzle 409 can be adjusted left and right at the same time; the second adjustment assembly 408 operates on the principle that: the second up-down adjusting plate 4082 is rotated by hand, so that the second up-down adjusting plate 4082 moves up and down on the fourth screw 4081, the wire feeding nozzle 409 can be adjusted up and down, the third left-right adjusting plate 4084 is rotated by hand, the third left-right adjusting plate 4084 moves left and right on the fifth screw 4083, and the wire feeding nozzle 409 can be adjusted left and right.

The movement adjusting assembly 404 comprises a cylinder tail plate 4041, the cylinder tail plate 4041 is provided with a locking shaft 4042, the locking shaft 4042 is provided with a fifth cylinder 4043, a cylinder rod of the fifth cylinder 4043 is connected with a fish-eye joint 4044, the fish-eye joint 4044 is provided with a cylinder pin 4045, the welding gun 407 is in an inclined state when not working, the fifth cylinder 4043 converts the pressure of compressed air into mechanical energy, the cylinder rod performs linear reciprocating motion in a cylinder body, the cylinder rod stretches out to top the mounting plate 403 horizontally through the cylinder pin 4045, and the mounting plate 403 top horizontally drives the lifting driving assembly 405 and the first adjusting assembly 406, so that the welding gun 407 is in a vertical state.

The lifting driving assembly 405 comprises a sixth air cylinder 4051, a connecting plate 4052 is arranged above an air cylinder rod of the sixth air cylinder 4051, the connecting plate 4052 is arranged below the welding gun fixing plate 4061, the sixth air cylinder 4051 converts the pressure of compressed air into mechanical energy, the air cylinder rod performs linear reciprocating motion in the cylinder body, the air cylinder rod stretches out to drive the first adjusting assembly 406 and the second adjusting assembly 408 to move up and down, the welding gun 407 and the wire feeding nozzle 409 are driven to move up and down, and the welding operation is performed on the aluminum shaft head 11 and the aluminum pipe 10; a sixth air cylinder 4051 is arranged above the mounting plate 403, a wire feeder fixing plate 410 is arranged at one end below the mounting plate 403, and an air cylinder pin 4045 is arranged at the other end below the mounting plate 403; the wire feeder fixing plate 410 is provided with a wire feeder 411, the wire feeder 411 is provided with an iron wire, the iron wire is connected with a wire feeder 409, wire feeding operation is performed through the wire feeder 409, and welding is facilitated.

Example two

As shown in fig. 1 to 13, this embodiment is an improvement on the basis of the first embodiment, and the improvement of this embodiment is that: a rotary clamping assembly 1 is arranged above the first supporting plate 8, a supporting assembly 5 is arranged on the side of the rotary clamping assembly 1, a sliding plate 6 is connected above the second supporting plate 9 in a sliding manner, a clamping assembly 2 is arranged above the sliding plate 6, and the rotary clamping assembly 1 and the clamping assembly 2 are arranged oppositely; one side of the clamping component 2 is provided with a limiting component 3, and the other side of the clamping component 3 is provided with a movable fixing component 7.

The rotary clamping assembly 1 comprises a motor 101, the motor 101 is connected with a speed reducer 102, the speed reducer 102 is connected with a driving wheel 103, the driving wheel 103 is connected with a synchronous belt 104, the synchronous belt 104 is connected with a driven wheel 105, the driven wheel 105 is connected with a first driven shaft 106, the first driven shaft 106 is connected with a first driven disc 107, and the first driven disc 107 is connected with a first positioning head 108; the first driven shaft 106 is rotatably connected with a first supporting vertical plate 109, a first air cylinder 110 is arranged on the side edge of the first supporting vertical plate 109, and an air cylinder rod of the first air cylinder 110 is propped against the upper side of the first driven plate 107; the clamping assembly 2 comprises a second supporting vertical plate 201, a second driven shaft 202 is rotatably connected to the second supporting vertical plate 201, a second driven plate 203 is connected to the second driven shaft 202, and a second positioning head 204 is connected to the second driven plate 203; a second cylinder 205 is arranged on the side of the second supporting vertical plate 201, and a cylinder rod of the second cylinder 205 is propped against the upper side of the second driven plate 203; the movable fixing assembly 7 comprises a fourth cylinder 701, and a cylinder rod of the fourth cylinder 701 is used for abutting against the second supporting vertical plate 201; the two sides of the second supporting plate 9 are provided with sliding rails 12, four second sliding blocks 13 are arranged below the sliding plate 6, and the second sliding blocks 13 are connected to the sliding rails 12 in a sliding manner; the limiting assembly 3 comprises a first bracket bottom plate 301, the first bracket bottom plate 301 is arranged on the second supporting plate 9, the first bracket bottom plate 301 is provided with a third air cylinder 302, the third air cylinder 302 is in an inclined state, and an air cylinder rod of the third air cylinder 302 is used for propping against the aluminum pipe 10; the support assembly 5 comprises a second bracket bottom plate 501, two bearings 502 are arranged above the second bracket bottom plate 501 and the first bracket bottom plate 301, and the bearings 502 are arranged below the aluminum pipe 10; the working principle of the movable fixing assembly 7, the rotary clamping assembly 1, the supporting assembly 5, the limiting assembly 3 and the clamping assembly 2 is that an aluminum shaft head 11 is arranged on a first positioning head 108, the other aluminum shaft head 11 is arranged on a second positioning head 204, an aluminum pipe 10 is placed on a bearing 502, a cylinder rod of a fourth cylinder 701 extends out to push the clamping assembly 2 to move towards the rotary clamping assembly 1 through a second sliding block 13 on a sliding rail 12, the two aluminum shaft heads 11 and the aluminum pipe 10 are tightly and fixedly connected, the clamping assembly 2 is fixedly connected, after the two aluminum shaft heads 11 and the aluminum pipe 10 are fixed, a motor 101 is started to enable a speed reducer 102 to rotate, the speed reducer 102 drives a driving wheel 103 to rotate, the driving wheel 103 drives a synchronous belt 104 to rotate, the synchronous belt 104 drives a driven wheel 105 to rotate, the driven wheel 105 drives a first driven shaft 106 to rotate, the first driven wheel 107 drives the first positioning head 108 to rotate synchronously with the two aluminum shaft heads 11 and the aluminum pipe 10, and the cylinder rod of the third cylinder 302 extends out to the aluminum pipe 10 to play a role in fixing of the aluminum pipe 10, and the limiting position can be prevented from being shifted when the three are welded.

Finally, it should be noted that: although the present utility model has been described in detail with reference to the embodiments, it should be understood that the utility model is not limited to the preferred embodiments, but is capable of modification and equivalents to some of the features described in the foregoing embodiments, but is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The utility model provides an intelligence continuous truss welded structure, its characterized in that, includes the board, be provided with the line rail on the board, line rail sliding connection has first slider, first slider top is provided with the second backup pad, second backup pad side is provided with first backup pad, first backup pad with second backup pad top all is provided with welding assembly, welding assembly includes the supporting seat, the supporting seat rotates and is connected with the roll axis, the roll axis top is provided with the mounting panel, mounting panel below end is provided with removes adjustment subassembly, the mounting panel top is provided with lift drive assembly, lift drive assembly top is provided with first adjustment subassembly, first adjustment subassembly is provided with welder and second adjustment subassembly, second adjustment subassembly is provided with the wire feed mouth.

2. The intelligent continuous truss welding structure according to claim 1, wherein the first adjusting assembly comprises a welding gun fixing plate, the welding gun fixing plate is provided with a first screw rod, the first screw rod is in threaded connection with a first left adjusting plate and a first right adjusting plate, the first left adjusting plate is provided with a second screw rod, the second screw rod is in threaded connection with a first upper adjusting plate and a second lower adjusting plate, the first upper adjusting plate and the second lower adjusting plate are provided with a third screw rod, the third screw rod is in threaded connection with a second left adjusting plate and a second right adjusting plate, the second left adjusting plate and the second right adjusting plate are provided with angle adjusting plates, the side edges of the angle adjusting plates are provided with clamping pressing plates, and the clamping pressing plates are provided with the welding gun.

3. The intelligent continuous truss welding structure according to claim 2, wherein the second adjusting assembly comprises a fourth screw, the fourth screw is arranged on the angle adjusting plate, the fourth screw is in threaded connection with a second upper and lower adjusting plate, the second upper and lower adjusting plate is provided with a fifth screw, the fifth screw is in threaded connection with a third left and right adjusting plate, the third left and right adjusting plate is provided with a wire nozzle mounting plate, and the wire nozzle mounting plate is provided with the wire feeding nozzle.

4. The intelligent continuous truss welding structure of claim 1, wherein the movement adjustment assembly comprises a cylinder tail plate, the cylinder tail plate is provided with a locking shaft, the locking shaft is provided with a fifth cylinder, a cylinder rod of the fifth cylinder is connected with a fisheye joint, and the fisheye joint is provided with a cylinder pin.

5. The intelligent continuous truss welding structure of claim 1, wherein the lifting drive assembly comprises a sixth cylinder, a connecting plate is arranged above a cylinder rod of the sixth cylinder, and the connecting plate is arranged below the welding gun fixing plate; the sixth air cylinder is arranged above the mounting plate, one end below the mounting plate is provided with a wire feeder fixing plate, and the other end below the mounting plate is provided with the air cylinder pin; the wire feeder fixing plate is provided with a wire feeder, the wire feeder is provided with an iron wire, and the iron wire is connected with the wire feeder nozzle.

6. The intelligent continuous truss welding structure according to claim 1, wherein a rotary clamping assembly is arranged above the first supporting plate, a supporting assembly is arranged on the side of the rotary clamping assembly, a sliding plate is connected above the second supporting plate in a sliding manner, a clamping assembly is arranged above the sliding plate, and the rotary clamping assembly is arranged opposite to the clamping assembly; one side of the clamping component is provided with a limiting component, and the other side of the clamping component is provided with a movable fixing component.

7. The intelligent continuous truss welding structure of claim 6, wherein the rotary clamping assembly comprises a motor, the motor is connected with a speed reducer, the speed reducer is connected with a driving wheel, the driving wheel is connected with a synchronous belt, the synchronous belt is connected with a driven wheel, the driven wheel is connected with a first driven shaft, the first driven shaft is connected with a first driven disc, and the first driven disc is connected with a first positioning head; the first driven shaft is rotationally connected with a first supporting vertical plate, a first air cylinder is arranged on the side edge of the first supporting vertical plate, and an air cylinder rod of the first air cylinder props against the upper portion of the first driven plate.

8. The intelligent continuous truss welding structure of claim 6 wherein the clamping assembly includes a second support riser rotatably connected with a second driven shaft connected with a second driven plate connected with a second positioning head; the side of the second supporting vertical plate is provided with a second air cylinder, and an air cylinder rod of the second air cylinder props against the upper part of the second driven plate.

9. The intelligent continuous truss welding structure of claim 6, wherein the limiting assembly comprises a first bracket bottom plate, the first bracket bottom plate is arranged on the second supporting plate, the first bracket bottom plate is provided with a third cylinder, the third cylinder is in an inclined state, and a cylinder rod of the third cylinder is used for propping against an aluminum pipe; the support assembly comprises a second bracket bottom plate, a plurality of bearings are arranged above the second bracket bottom plate and the first bracket bottom plate, and the bearings are arranged below the aluminum pipe.

10. The intelligent continuous truss welding structure of claim 6 wherein the mobile fixture assembly includes a fourth cylinder having a cylinder rod for abutting the second support riser; the sliding rails are arranged on two sides of the second supporting plate, a plurality of second sliding blocks are arranged below the sliding plate, and the second sliding blocks are connected to the sliding rails in a sliding mode.