CN111451778A - Full-automatic chamfering 3D bending butt welding forming all-in-one machine for basket wire - Google Patents

Abstract

The invention discloses a full-automatic chamfering 3D bending butt welding forming integrated machine for a pull basket wire, which relates to the technical field of machining equipment and solves the problems of time and labor waste in the machining process. The technical key points are as follows: the automatic butt welding machine comprises a machine body, a feeding device, a 3D rotating device, a machine head device, a butt welding device, a cutting device and a bending device, the feeding device, the 3D rotating device, the machine head device, the butt welding device, the cutting device and the bending device are installed on the machine body, the machine head device comprises a machine head frame, a clamping assembly and a chamfering assembly, the machine head frame is fixedly connected with the machine body, the chamfering assembly comprises a rotating sleeve, a sliding block, a turning tool, a machine head driving mechanism and a feed mechanism, the rotating sleeve is rotatably connected with the machine head frame, the sliding block is slidably connected with the rotating sleeve along the direction perpendicular to the rotating sleeve, and the turning tool is fixedly connected. The advantages of time and labor saving in the processing process are achieved.

Description

Full-automatic chamfering 3D bending butt welding forming all-in-one machine for basket wire

Technical Field

The invention relates to the technical field of machining equipment, in particular to a full-automatic chamfering and 3D bending butt welding integrated machine for a pull basket wire.

Background

Many metal products are often manufactured by using strip-shaped metal raw materials, such as frame wires in a pull basket, and in the process of processing strip-shaped metal materials, the materials are often required to be subjected to processing procedures such as cutting, chamfering, bending, welding and the like so as to process the strip-shaped materials into required shapes.

In the prior art, the processing of the basket wire is completed, the material is required to be cut off to a proper length by the cutting equipment for the material, the cut-off material is conveyed to the grinding machine for chamfering, then the chamfered material is conveyed and clamped on the bending machine, and finally the material is welded by the butt welding machine, so that the processing of a product is completed. Because cutting equipment, polisher, bender and butt welder all need workman's operation, perhaps use the manual work with material transport to different stations, consequently current production facility is wasted time and energy when processing the product. Therefore, the problems of time and labor waste in the processing process exist in the prior art.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide the full-automatic chamfering and 3D bending butt welding integrated machine for the pull basket wire, which has the advantages of time and labor saving in the machining process.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a full-automatic chamfer 3D bending butt welding all-in-one of basket wire, includes lathe bed, material feeding unit, 3D rotary device, locomotive device, butt welding device, cutting device and bending device all install in the lathe bed, the locomotive device includes headstock, clamping component and chamfer subassembly, headstock and lathe bed fixed connection, the chamfer subassembly is including rotating cover, sliding block, lathe tool, locomotive actuating mechanism and feed mechanism, it is connected with the headstock rotation to rotate the cover, the sliding block with rotate the cover along the direction sliding connection that the cover was rotated to the perpendicular to, lathe tool and sliding block fixed connection.

Preferably, the clamping assembly comprises a clamping driving part, a clamping driving rod, a clamping swing rod, a clamping connecting frame and a clamping sleeve, the clamping sleeve is provided with a clamping through hole for materials to pass through, the outer surface of the clamping sleeve is provided with an inclined plane abutted against the clamping connecting frame, the clamping driving part is installed on the headstock, the clamping driving part is rotatably connected with the clamping driving rod, two ends of the clamping swing rod are rotatably connected with the headstock and the clamping driving rod respectively, and the clamping connecting frame is slidably connected with the headstock and rotatably connected with the clamping driving rod.

Preferably, the clamping sleeve is provided with an extrusion groove at the inclined surface, and the extension direction of the extrusion groove is parallel to the length direction of the clamping sleeve.

Preferably, the feed mechanism includes feed driving piece, feed actuating lever, feed pendulum rod, feed link and feed slider, feed driving piece fixed mounting is in the headstock, the feed driving piece rotates with the feed actuating lever to be connected, feed pendulum rod both ends rotate with feed actuating lever and headstock frame respectively to be connected, feed link and headstock frame sliding connection just rotate with the feed actuating lever to be connected, the sliding block is equipped with oblique slide rail, the extending direction of oblique slide rail and the sliding direction nonparallel of sliding block on rotating the cover, the feed slider install in advance the link and with oblique slide rail sliding connection.

Preferably, the 3D rotating device comprises a rotating disc and a rotating driving assembly, the rotating disc is rotatably connected with the lathe bed, the rotating disc is provided with a rotating hole matched with the material, and the rotating driving assembly is respectively connected with the lathe bed and the rotating disc.

Preferably, the butt welding device includes butt welding connecting seat, first butt welding chuck, first butt welding driving piece, second butt welding chuck and second butt welding driving piece, first butt welding driving piece and second are to welding the driving piece and all rotate to be connected in the butt welding connecting seat, first butt welding chuck and second butt welding chuck all rotate with the butt welding connecting seat and are connected, first butt welding chuck rotates with first butt welding driving piece and butt welding connecting seat respectively and is connected, the second is to welding the chuck respectively with the second to welding the driving piece and butt welding connecting seat rotate and be connected, first butt welding chuck and second are to welding the chuck and are equipped with first welding machine link and second welding machine link respectively.

Preferably, the cutting device comprises a first cutting seat and a second cutting seat, the first cutting seat is provided with a cutting hole for materials to pass through, the first cutting seat is connected with the lathe bed in a sliding mode, and the lathe bed is provided with a cutting driving assembly connected with the second cutting seat.

Preferably, the second cutting seat is fixedly connected with a supporting block abutted to the material.

Preferably, the bending device comprises a bending seat and a bending driving assembly, the bending seat is rotatably connected with the lathe bed, the bending seat is provided with a bending groove for clamping materials, and the bending driving assembly is respectively connected with the bending seat and the lathe bed.

Preferably, the feeding device comprises a plurality of feeding wheels abutted to the material, the feeding wheels are rotatably connected with the lathe bed, the feeding wheels are provided with feeding motors, output shafts of the feeding motors are fixedly connected with the feeding wheels, and the feeding motors are fixedly arranged on the lathe bed.

Compared with the prior art, the invention has the beneficial effects that:

the chamfering, cutting, bending and butt welding of the materials can be realized on one machine tool, the materials do not need to be carried back and forth on different stations, the number of workers needed for chamfering, cutting, bending and butt welding of the materials can be reduced, the production efficiency can be improved, and the advantages of time saving and labor saving of the machining process are achieved.

Drawings

FIG. 1 is a schematic structural view of a full-automatic chamfering and 3D bending butt welding integrated machine for a pull basket wire in the embodiment of the present application;

FIG. 2 is a schematic structural diagram of a 3D rotation device in an embodiment of the present application;

fig. 3 is a schematic structural diagram of a vehicle head device in an embodiment of the application;

FIG. 4 is a schematic structural diagram of a clamping swing rod and a feeding swing rod in the embodiment of the present application;

FIG. 5 is a schematic structural diagram of a feed connecting rack and an inclined slide rail in an embodiment of the present application;

FIG. 6 is a schematic structural diagram of a butt welding device in an embodiment of the present application;

FIG. 7 is a schematic view of the cutting device according to the embodiment of the present application;

fig. 8 is a schematic structural diagram of a bending device in an embodiment of the present application.

Reference numerals: 11. a bed body; 12. a straightening frame; 13. a first straightening wheel; 14. a second straightening wheel; 20. a feeding device; 21. a feed wheel; 30. a 3D rotation device; 31. rotating the disc; 32. rotating the hole; 33. a rotating electric machine; 34. a rotating gear; 35. rotating the gear ring; 400. a headstock device; 410. a headstock; 420. a clamping assembly; 421. clamping the driving member; 422. clamping the driving rod; 423. clamping the swing rod; 424. clamping the connecting frame; 425. a clamping sleeve; 426. a bevel; 427. pressing a groove; 428. clamping the through hole; 430. a chamfering assembly; 431. rotating the sleeve; 432. a slider; 433. an inclined slide rail; 434. turning a tool; 440. a headstock driving motor; 441. a driving pulley; 442. a belt; 443. a driven pulley; 450. a feed drive; 451. a feed drive rod; 452. a feed swing rod; 453. a feed connecting frame; 454. a feed slide block; 500. a butt welding device; 510. butt welding frames; 511. a longitudinal adjusting bracket; 512. a longitudinal drive member; 513. a transverse adjusting bracket; 514. a transverse drive; 515. a spacing adjustment frame; 516. a spacing adjustment mounting rack; 517. a space adjusting motor; 518. a pitch adjustment gear; 519. a spacing adjustment rack; 520. a first butt welding collet; 521. a first butt welding drive; 522. a first welder connecting end; 530. a second butt welding chuck; 531. a second pair of welding drivers; 532. a second welder connecting end; 540. a first chuck adjusting bracket; 541. a first fixed collet; 542. a first chuck drive member; 543. a first movable clamp; 544. a first adjustment motor; 550. a second chuck adjusting bracket; 551. a second fixed collet; 552. a second chuck drive member; 553. a second movable clamp; 554. a second adjustment motor; 60. a cutting device; 61. a first cutting seat; 62. cutting off the hole; 63. a second cutting seat; 64. a bearing seat; 65. cutting off the screw rod; 66. cutting off the driving motor; 67. a support block; 70. a bending device; 71. a curved seat; 72. a curved groove; 73. a worm gear; 74. a worm; 75. a bent motor.

Detailed Description

The invention will now be further described with reference to the accompanying description and examples:

example (b):

a full-automatic chamfering and 3D bending and butt welding integrated machine for a basket wire comprises a machine body 11, a feeding device 20, a 3D rotating device 30, a machine head device 400, a butt welding device 500, a cutting device 60 and a bending device 70, wherein the feeding device 20, the 3D rotating device 30, the machine head device 400, the butt welding device 500, the cutting device 60 and the bending device 70 are all arranged on the machine body 11, as shown in figures 1 to 8.

The lathe head device 400 comprises a lathe head frame 410, a clamping assembly 420 and a chamfering assembly 430, the lathe head frame 410 is fixedly connected with the lathe bed 11, the chamfering assembly 430 comprises a rotating sleeve 431, a sliding block 432, a lathe tool 434, a lathe head driving mechanism and a feed mechanism, the rotating sleeve 431 is rotatably connected with the lathe head frame 410, the sliding block 432 is slidably connected with the rotating sleeve 431 in the direction perpendicular to the rotating sleeve 431, the lathe tool 434 is fixedly connected with the sliding block 432, the lathe head driving mechanism is respectively connected with the lathe head frame 410 and the rotating sleeve 431, and the feed mechanism is respectively connected with the lathe head frame 410 and the sliding block 432.

The clamping assembly 420 comprises a clamping driving member 421, a clamping driving rod 422, a clamping swing rod 423, a clamping connecting frame 424 and a clamping sleeve 425, wherein the clamping driving member 421 is a clamping air cylinder. The clamping sleeve 425 is provided with a clamping through hole 428 for materials to pass through, the outer surface of the clamping sleeve 425 is provided with an inclined surface 426 abutted against the clamping connecting frame 424, the clamping driving piece 421 is installed on the headstock 410, the clamping driving piece 421 is rotatably connected with the clamping driving rod 422, two ends of the clamping swing rod 423 are respectively rotatably connected with the headstock 410 and the clamping driving rod 422, and the clamping connecting frame 424 is slidably connected with the headstock 410 and is rotatably connected with the clamping driving rod 422. The clamping sleeve 425 is provided with a pressing groove 427 at the ramp 426, the pressing groove 427 extending in a direction parallel to the length of the clamping sleeve 425.

The feed mechanism comprises a feed driving member 450, a feed driving rod 451, a feed oscillating bar 452, a feed connecting frame 453 and a feed sliding block 454, wherein the feed driving member 450 is a feed cylinder fixedly mounted on the headstock 410. The feeding driving part 450 is fixedly installed on the headstock 410, the feeding driving part 450 is rotatably connected with the feeding driving rod 451, two ends of the feeding swing rod 452 are rotatably connected with the feeding driving rod 451 and the headstock 410 respectively, the feeding connecting frame 453 is slidably connected with the headstock 410 and rotatably connected with the feeding driving rod 451, the sliding block 432 is provided with an inclined sliding rail 433, the extending direction of the inclined sliding rail 433 is not parallel to the sliding direction of the sliding block 432 on the rotating sleeve 431, and the feeding sliding block 454 is installed on the feeding connecting frame and slidably connected with the inclined sliding rail 433.

The head driving mechanism comprises a head driving motor 440, a driving pulley 441 and a driven pulley 443, the head driving motor 440 is fixedly mounted on the head frame 410, the driving pulley 441 is mounted on an output shaft of the head driving motor 440, the driven pulley 443 is fixedly mounted on the rotating sleeve 431, and a belt 442 is wound between the driving pulley 441 and the driven pulley 443. The driving motor drives the rotating sleeve 431 to rotate on the vehicle head frame 410 through the transmission of the driving belt wheel 441, the belt 442 and the driven belt wheel 443, so that the function of driving the rotating sleeve 431 to rotate through the vehicle head driving mechanism is realized.

The 3D rotating device 30 comprises a rotating disc 31 and a rotating driving assembly, the rotating disc 31 is rotatably connected with the lathe bed 11, the rotating disc 31 is provided with a rotating hole 32 matched with the material, and the rotating driving assembly is respectively connected with the lathe bed 11 and the rotating disc 31. The rotary driving assembly comprises a rotary motor 33 and a rotary gear 34, the rotary motor 33 is fixedly mounted on the bed 11, the rotary gear 34 is fixedly connected to an output shaft of the rotary motor 33, and the rotary ring gear 35 meshed with the rotary gear 34 is fixedly connected to the rotary disc 31.

The butt welding device 500 includes a butt welding connection seat, a first butt welding chuck 520, a first butt welding driving member 521, a second butt welding chuck 530 and a second butt welding driving member 531, wherein the first butt welding driving member 521 and the second butt welding driving member 531 are a first butt welding cylinder and a second butt welding cylinder, respectively. The first pair of welding driving members 521 and the second pair of welding driving members 531 are rotatably connected to the butt welding connection base, the first pair of welding chucks 520 and the second pair of welding chucks 530 are rotatably connected to the butt welding connection base, the first pair of welding chucks 520 are rotatably connected to the first pair of welding driving members 521 and the butt welding connection base respectively, the second pair of welding chucks 530 are rotatably connected to the second pair of welding driving members 531 and the butt welding connection base respectively, and the first pair of welding chucks 520 and the second pair of welding chucks 530 are provided with a first welding machine connection end 522 and a second welding machine connection end 532 respectively. The first welder connector 522 and the second welder connector 532 are both electrically connected to an external welder.

The butt welding connecting seat comprises a butt welding frame 510, a longitudinal adjusting frame 511 and a transverse adjusting assembly, the butt welding frame 510 is installed on the machine tool body 11, the longitudinal adjusting frame 511 is connected with the butt welding frame 510 in a sliding mode, the butt welding frame 510 is provided with a longitudinal driving piece 512 connected with the longitudinal adjusting frame 511, the transverse adjusting assembly is connected with the longitudinal adjusting frame 511 in a sliding mode, and the sliding direction of the transverse adjusting assembly on the longitudinal adjusting frame 511 is perpendicular to the sliding direction of the longitudinal adjusting frame 511 on the butt welding frame 510.

The transverse adjusting assembly comprises a transverse adjusting frame 513, an interval adjusting frame 515 and an interval driving mechanism, the transverse adjusting frame 513 and the interval adjusting frame 515 are connected to the longitudinal adjusting frame 511 in a sliding mode, a transverse driving piece 514 connected with the transverse adjusting frame 513 is installed on the longitudinal adjusting frame 511, the interval driving mechanism is connected with the transverse adjusting frame 513 and the interval adjusting frame 515 respectively, and the first pair of welding clamps 520 and the second pair of welding clamps 530 are connected to the transverse adjusting frame 513 and the interval adjusting frame 515 in a rotating mode respectively.

The interval driving mechanism comprises an interval adjusting mounting frame 516, an interval adjusting motor 517, an interval adjusting gear 518 and an interval adjusting rack 519, the interval adjusting mounting frame 516 is fixedly mounted on the transverse adjusting frame 513, the interval adjusting motor 517 is fixedly mounted on the interval adjusting mounting frame 516, the interval adjusting gear 518 is fixedly mounted on an output shaft of the interval adjusting motor 517, the interval adjusting rack 519 is fixedly mounted on the interval adjusting frame 515, and the interval adjusting gear 518 is meshed with the interval adjusting rack 519.

The longitudinal adjusting frame 511 is slidably connected with a first chuck adjusting frame 540 and a second chuck adjusting frame 550, the first chuck adjusting frame 540 is fixedly provided with a first fixed chuck 541 and a first chuck driving member 542, the longitudinal adjusting frame 511 is fixedly provided with a first adjusting motor 544 of which the output shaft is in threaded connection with the first chuck adjusting frame 540, the longitudinal adjusting frame 511 is fixedly provided with a second adjusting motor 554 of which the output shaft is in threaded connection with the second chuck adjusting frame 550, the second chuck adjusting frame 550 is fixedly provided with a second clamping block and a second fixed chuck 551 driving member, and the first chuck driving member 542 and the second chuck driving member 552 are respectively provided with a first movable chuck 543 and a second movable chuck 553.

The cutting device 60 comprises a first cutting seat 61 and a second cutting seat 63, the first cutting seat 61 is provided with a cutting hole 62 for materials to pass through, the first cutting seat 61 is connected with the lathe bed 11 in a sliding mode, and the lathe bed 11 is provided with a cutting driving assembly connected with the second cutting seat 63. The cutting driving assembly comprises a bearing seat 64, a cutting screw rod 65 and a cutting driving motor 66, the cutting screw rod 65 is rotatably connected with the bearing seat 64 and is in axial linkage, the cutting screw rod 65 is in threaded connection with the second cutting seat 63, and the cutting screw rod 65 is fixedly connected to an output shaft of the cutting driving motor 66. The second cutting seat 63 is fixedly connected with a supporting block 67 which is abutted to the material.

The bending device 70 comprises a bending seat 71 and a bending driving assembly, the bending seat 71 is rotatably connected with the lathe bed 11, the bending seat 71 is provided with a bending groove 72 for clamping materials, and the bending driving assembly is respectively connected with the bending seat 71 and the lathe bed 11. The bending driving assembly comprises a turbine, a worm 74 and a bending motor 75, the turbine is fixedly connected with the bending base 71, the bending motor 75 is fixedly installed on the lathe bed 11, the worm 74 is fixedly installed on an output shaft of the bending motor 75, and the worm 74 is meshed with the turbine.

The feeding device 20 comprises a plurality of feeding wheels 21 abutted to the materials, the feeding wheels 21 are rotatably connected with the lathe bed 11, the feeding wheels 21 are provided with feeding motors, output shafts of the feeding motors are fixedly connected with the feeding wheels 21, and the feeding motors are fixedly arranged in the lathe bed 11.

The lathe bed 11 is provided with a straightening frame 12, the straightening frame 12 is rotatably connected with a plurality of first straightening wheels 13 and a plurality of second straightening wheels 14, the arrangement direction of the plurality of first straightening wheels 13 is parallel to that of the second straightening wheels 14, and the gap between the first straightening wheels 13 and the second straightening wheels 14 is larger than the width of the material.

The embodiment has the following advantages:

in the processing process of the materials, the materials are sequentially conveyed to the 3D rotating device 30 through the feeding mechanism, the head device 400, the butt welding device 500, the cutting device 60 and the bending device 70, chamfers are processed on the materials through the head device 400, the bending device 70 conducts bending processing on the materials, the 3D rotating device 30 adjusts the angle of the materials, the bending device 70 can conduct bending processing on the materials from different directions, the materials are cut through the cutting device 60, the materials after being bent are conducted welding processing through the butt welding device 500, and therefore processing of the materials is completed, the materials are cut, chamfers, bent and welded quickly on one machine tool, manpower is effectively saved, and the advantages of time saving and labor saving are achieved.

The chamfering, cutting, bending and butt welding of the materials can be realized on one machine tool, the materials do not need to be carried back and forth on different stations, the number of workers needed for chamfering, cutting, bending and butt welding of the materials can be reduced, the production efficiency can be improved, and the advantages of time saving and labor saving of the machining process are achieved.

After the clamping assembly 420 clamps the material, the feed mechanism drives the sliding block 432 to slide on the rotating sleeve 431, and drives the turning tool 434 to move towards the direction close to the material, so that the turning tool 434 is abutted to the material. The lathe head driving mechanism drives the rotating sleeve 431, the sliding block 432 and the turning tool 434 to rotate around the material, so that the turning tool 434 performs turning on the material, and the function of processing chamfers on the material is realized.

When the material needs to be clamped, the clamping driving member 421 drives the clamping driving rod 422 and the clamping swing rod 423 to rotate, and the clamping driving rod 422 drives the clamping connecting frame 424 to move towards the direction close to the clamping sleeve 425, so that the clamping connecting frame 424 abuts against the inclined surface 426. Continuing to drive the clamp link 424 toward the clamp group 425 moves the clamp link 424 over the ramp 426 and forces the clamp link 424 against the ramp 426, thereby creating a clamping force on the clamp group 425 to clamp the material. When the material needs to be loosened, the clamping driving member 421 drives the clamping connecting frame 424 to move away from the clamping sleeve 425 through the clamping driving rod 422, so that the clamping connecting frame 424 loosens the clamping sleeve 425, and the clamping sleeve 425 loosens the material, thereby realizing the function of loosening the material.

Through the arrangement of the extrusion groove 427, when the clamping connecting frame 424 extrudes the clamping sleeve 425 to deform and provide clamping force for materials, the elastic force generated by the clamping sleeve 425 and capable of offsetting the clamping force is reduced, and the effect of improving the clamping force is achieved.

When the sliding block 432 and the turning tool 434 need to move towards the direction close to the material, the cutting feed driving part 450 drives the cutting feed driving rod 451 and the cutting feed oscillating bar 452 to rotate, the cutting feed driving rod 451 drives the cutting feed connecting frame 453 to move towards the direction close to the sliding block 432 on the headstock 410, the cutting feed connecting frame 453 drives the cutting feed sliding block 454 to slide on the inclined sliding rail 433, and the cutting feed sliding block 454 pushes the sliding block 432 and the turning tool 434 to move towards the direction close to the material, so that the function of driving the sliding block 432 and the turning tool 434 to move towards the direction close to the material is realized.

When the sliding block 432 and the turning tool 434 need to move in a direction away from the material, the feed driving member 450 drives the feed connecting frame 453 to move through the feed driving rod 451, and the feed connecting frame 453 drives the feed sliding block 454 to slide on the inclined sliding rail 433 and drives the sliding block 432 and the turning tool 434 to move in a direction away from the material, so that the function of driving the sliding block 432 and the turning tool 434 to move in a direction away from the material is realized.

The material is passed through the rotation hole 32. When the material needs to be rotated, the rotary driving assembly drives the rotary disc 31 to rotate, and the friction force between the rotary disc 31 and the material drives the material to rotate, so that the effect of driving the material to rotate is achieved, and the effect of adjusting the angle of the material is achieved.

The rotating motor 33 drives the rotating gear 34 to rotate, and the rotating gear 34 drives the rotating gear ring 35 and the rotating disk 31 to rotate, so that the function of driving the rotating disk 31 to rotate is realized.

When the material needs to be welded, the positions of the first pair of welding clamp heads 520 and the second pair of welding clamp heads 530 are adjusted, the material is simultaneously located between the first pair of welding clamp heads 520 and the butt welding connecting seat and between the second pair of welding clamp heads 530 and the butt welding connecting seat, the first pair of welding clamp heads 520 and the second pair of welding clamp heads 530 are respectively driven to rotate on the butt welding connecting seat through the first pair of welding driving pieces 521 and the second pair of welding driving pieces 531, the material is clamped between the first pair of welding clamp heads 520 and the butt welding connecting seat, meanwhile, the material is clamped between the second pair of welding clamp heads 530 and the butt welding connecting seat, and therefore the material between the first pair of welding clamp heads 520 and the second pair of welding clamp heads 530 can be welded, and the function of welding the material is achieved.

When the materials are not required to be welded, the first welding driving piece 521 and the second welding driving piece 531 respectively drive the first welding clamp 520 and the second welding clamp 530 to loosen the materials, and then the materials can be stopped being welded.

The longitudinal driving member 512 is a longitudinal driving cylinder, and an output shaft of the longitudinal driving motor is in threaded connection with the longitudinal adjusting frame 511. When the output shaft of the longitudinal driving motor rotates, the longitudinal adjusting frame 511 can be driven to move on the butt welding frame 510. The longitudinal driving member 512 drives the longitudinal adjusting frame 511 to move on the welding jig 510, so as to drive the transverse adjusting assembly, the first pair of welding clamps 520 and the second pair of welding clamps 530 to move, and thus the function of adjusting the first pair of welding clamps 520 and the second pair of welding clamps 530 is realized.

The transverse drive 514 is a transverse drive cylinder. The transverse driving member 514 drives the transverse adjusting frame 513, the spacing adjusting mechanism, the spacing adjusting frame 515, the first pair of welding clamps 520 and the second pair of welding clamps 530 to move on the longitudinal adjusting frame 511, so that the positions of the first pair of welding clamps 520 and the second pair of welding clamps 530 can be adjusted in different directions, the effect of conveniently adjusting the positions of the first pair of welding clamps 520 and the second pair of welding clamps 530 is achieved, and the effect of improving the applicability is achieved.

Spacing adjustment motor 517 drives interval adjustment gear 518 and rotates, and interval adjustment gear 518 drives interval adjustment rack 519 and interval adjustment frame 515 and removes for horizontal alignment jig 513 to adjust the distance between horizontal alignment jig 513 and the interval alignment jig 515, and then adjust first welding chuck 520 and the second to welding chuck 530 between the distance, thereby can adapt to the welding demand of different materials, reach the effect that improves the suitability.

The first chuck driver 542 is a first chuck cylinder and the second chuck driver 552 is a second chuck cylinder. When the output shafts of the first adjusting motor 544 and the second adjusting motor 554 rotate, the first chuck adjusting frame 540 and the second chuck adjusting frame 550 can be respectively driven to slide on the longitudinal adjusting frame 511, so that the function of adjusting the positions of the first chuck adjusting frame 540 and the second chuck adjusting frame 550 is realized, and the first fixed chuck 541, the first movable chuck 543, the second fixed chuck 551 and the second movable chuck 553 are driven by the first chuck adjusting frame 540 and the second chuck adjusting frame 550 to move. The positions of the first fixed chuck 541, the first movable chuck 543, the second fixed chuck 551 and the second movable chuck 553 are adjusted so that the material is located between the first fixed chuck 541 and the first movable chuck 543, and meanwhile, the material is located between the second fixed chuck 551 and the second movable chuck 553. First movable chuck 543 and second movable chuck 553 are driven respectively through first chuck driving piece 542 and second chuck driving piece 552, when making first movable chuck 543 and first fixed chuck 541 carry the material, second movable chuck 553 carries the material with second fixed chuck 551, and then reach the effect of fixed material, prevent that the material from falling to ground when first butt welding chuck 520 and second butt welding chuck 530 loosen the material, play the effect that improves the stability of material, reach the effect of protection material.

The material is passed through the cut-out holes 62. When the material needs to be cut off, the second cutting seat 63 is driven to move through the cutting driving assembly, the second cutting seat 63 extrudes the material and enables the material to be cut off, and therefore the function of cutting off the material is achieved.

When the output shaft of the cutting drive motor 66 rotates, the cutting screw 65 is driven to rotate, and the second cutting seat 63 can be driven to slide on the bed body 11 through the cutting screw 65, so that the function of driving the second cutting seat 63 to slide on the bed body 11 is realized.

The material is supported by the supporting block 67, so that the length of the material bent in the bending process of the material on the bending device 70 is reduced, and the effect of facilitating the bending process is achieved.

The material is clamped in the bending groove 72, and the bending driving assembly drives the bending seat 71 to rotate on the lathe bed 11, so that the material can be bent and deformed, and the function of bending the material is realized.

The bending motor 75 drives the worm wheel 73 to rotate, and the worm wheel 73 drives the worm wheel 73 and the bending seat 71 to rotate, so that the function of driving the bending seat 71 to rotate through the bending driving assembly is realized.

The feeding motor drives the feeding wheel 21 to rotate on the lathe bed 11, so that the friction force between the feeding wheel 21 and the material can drive the material to move, and the function of conveying the material is realized.

The material is placed between the first straightening wheel 13 and the second straightening wheel 14, and the material is blocked by the first straightening wheel 13 and the second straightening wheel 14, so that the bending degree of the material is reduced.

In summary, after reading the present disclosure, those skilled in the art can make various other corresponding changes without creative mental labor according to the technical solutions and concepts of the present disclosure, and all of them are within the protection scope of the present disclosure.

Claims (10)

1. The utility model provides a crooked butt welding of full-automatic chamfer 3D of basket wire all-in-one, includes lathe bed (11), material feeding unit (20), 3D rotary device (30), locomotive device (400), butt welding device (500), cutting device (60) and bending device (70) are all installed in lathe bed (11), its characterized in that: the lathe head device (400) comprises a lathe head frame (410), a clamping assembly (420) and a chamfering assembly (430), the lathe head frame (410) is fixedly connected with the lathe bed (11), the chamfering assembly (430) comprises a rotating sleeve (431), a sliding block (432), a lathe tool (434), a lathe head driving mechanism and a feed mechanism, the rotating sleeve (431) is rotatably connected with the lathe head frame (410), the sliding block (432) is slidably connected with the rotating sleeve (431) along the direction perpendicular to the rotating sleeve (431), and the lathe tool (434) is fixedly connected with the sliding block (432).

2. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 1, which is characterized in that: the clamping assembly (420) comprises a clamping driving piece (421), a clamping driving rod (422), a clamping swing rod (423), a clamping connecting frame (424) and a clamping sleeve (425), wherein the clamping sleeve (425) is provided with a clamping through hole (428) for materials to pass through, an inclined plane (426) abutted to the clamping connecting frame (424) is arranged on the outer surface of the clamping sleeve (425), the clamping driving piece (421) is installed on the headstock (410), the clamping driving piece (421) is rotatably connected with the clamping driving rod (422), two ends of the clamping swing rod (423) are rotatably connected with the headstock (410) and the clamping driving rod (422) respectively, and the clamping connecting frame (424) is slidably connected with the headstock (410) and rotatably connected with the clamping driving rod (422).

3. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 2, characterized in that: the clamping sleeve (425) is provided with a squeezing groove (427) at the inclined surface (426), and the extending direction of the squeezing groove (427) is parallel to the length direction of the clamping sleeve (425).

4. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 1, which is characterized in that: the feed mechanism comprises a feed driving piece (450), a feed driving rod (451), a feed swing rod (452), a feed connecting frame (453) and a feed sliding block (454), the feed driving piece (450) is fixedly installed on the headstock (410), the feed driving piece (450) is rotatably connected with the feed driving rod (451), two ends of the feed swing rod (452) are rotatably connected with the feed driving rod (451) and the headstock (410) respectively, the feed connecting frame (453) is slidably connected with the headstock (410) and rotatably connected with the feed driving rod (451), the sliding block (432) is provided with an inclined sliding rail (433), the extending direction of the inclined sliding rail (433) is not parallel to the sliding direction of the sliding block (432) on the rotating sleeve (431), and the feed sliding block (454) is installed on the feed connecting frame and is slidably connected with the inclined sliding rail (433).

5. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 1, which is characterized in that: the 3D rotating device (30) comprises a rotating disc (31) and a rotating driving assembly, the rotating disc (31) is rotatably connected with the lathe bed (11), the rotating disc (31) is provided with a rotating hole (32) matched with a material, and the rotating driving assembly is respectively connected with the lathe bed (11) and the rotating disc (31).

6. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 1, which is characterized in that: butt welding device (500) is including butt welding connecting seat, first butt welding chuck (520), first butt welding driving piece (521), second butt welding chuck (530) and second to welding driving piece (531), first butt welding driving piece (521) and second are to welding driving piece (531) all rotate to be connected in the butt welding connecting seat, first butt welding chuck (520) and second butt welding chuck (530) all rotate with the butt welding connecting seat to be connected, first butt welding chuck (520) rotate with first butt welding driving piece (521) and butt welding connecting seat respectively to be connected, second butt welding chuck (530) rotate with second to welding driving piece (531) and butt welding connecting seat to be connected, first butt welding chuck (520) and second butt welding chuck (530) are equipped with first welding machine link (522) and second welding machine link (532) respectively.

7. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 1, which is characterized in that: the cutting device (60) comprises a first cutting seat (61) and a second cutting seat (63), the first cutting seat (61) is provided with a cutting hole (62) for materials to pass through, the first cutting seat (61) is in sliding connection with the lathe bed (11), and the lathe bed (11) is provided with a cutting driving assembly connected with the second cutting seat (63).

8. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 7, characterized in that: the second cutting seat (63) is fixedly connected with a supporting block (67) which is abutted to the material.

9. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 1, which is characterized in that: bending device (70) are including bending seat (71) and bending drive assembly, bending seat (71) rotate with lathe bed (11) and are connected, bending seat (71) are equipped with curved groove (72) that supply the material card to go into, bending drive assembly connects respectively in bending seat (71) and lathe bed (11).

10. The full-automatic chamfering and 3D bending butt welding all-in-one machine for the pull basket wire according to claim 1, which is characterized in that: the feeding device (20) comprises a plurality of feeding wheels (21) abutted to the materials, the feeding wheels (21) are rotatably connected with the lathe bed (11), the feeding wheels (21) are provided with feeding motors, output shafts of the feeding motors are fixedly connected with the feeding wheels (21), and the feeding motors are fixedly installed on the lathe bed (11).

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