CN217122098U - Intelligent laser cutting and welding all-in-one machine capable of producing wine kettles in batches - Google Patents

Abstract

The utility model discloses a but intelligent laser of batch production flagon surely welds all-in-one, this intelligent laser surely welds all-in-one and aims at solving present flagon and need constantly have enough to meet the need between different equipment at cutting and welded in-process, is unfavorable for improving machining efficiency's technical problem. The intelligent laser cutting and welding integrated machine comprises a case, a workbench arranged at the upper end of the case, a cutting assembly and a welding assembly arranged above the workbench. This intelligence laser surely welds all-in-one adopts cutting assembly and welding assembly of installing on same processing platform, can cut and weldment work to the metal material of wine pot in proper order, need not make a round trip to have enough to meet the need the work piece between various different equipment, improves machining efficiency, and cutting assembly and welding assembly all operate through automatically controlled driven mode, set for in advance the movement track, can be accurate reach the work piece processing position, the accuracy of processing is high, and finished product is of high quality.

Description

Intelligent laser cutting and welding all-in-one machine capable of producing wine kettles in batches

Technical Field

The utility model belongs to flagon production facility field, concretely relates to but intelligent laser of batch production flagon surely welds all-in-one.

Background

The in-ear earphone is a portable earphone with the widest application range at present, and on the basis of a common earphone, a colloid plug is inserted into an ear canal to obtain better tightness. The performance effect of the earphone is greatly improved, and meanwhile, the ear canal structure of a human body is protected by the flexible material of the colloid plug head.

At present, after the wine pot is processed by punching, a formed workpiece is clamped on equipment of a processing center to mill redundant edge materials, then the processed workpiece is clamped on a tool to be welded, welding is completed, various workpieces need to be continuously circulated among different procedures, and the processed workpiece is moved to corresponding processing equipment, so that the processing efficiency is greatly reduced.

Therefore, to the condition that above-mentioned traditional wine pot cutting and welding processes need have enough to meet the need the work piece many times between various equipment, develop a novel processingequipment, utilize the cutting of integral type and welding set can accelerate the machining efficiency of work piece greatly.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Not enough to prior art, the utility model aims to provide a but intelligent laser of batch production flagon surely welds all-in-one, this intelligent laser surely welds all-in-one and aims at solving present flagon and need constantly have enough to meet the need between different equipment at cutting and welded in-process, is unfavorable for improving machining efficiency's technical problem.

(2) Technical scheme

In order to solve the technical problem, the utility model provides such but intelligent laser of batch production flagon surely welds all-in-one, this intelligent laser surely weld all-in-one include quick-witted case, install in the workstation of quick-witted case upper end, set up in the cutting component and the welding subassembly of workstation top, the bilateral symmetry installs the horizontal floorbar that slides around the workstation upper end, the vertical longeron of installing in floorbar upper end left side, a horizontal crossbeam is installed to longeron right-hand member, cutting unit install in crossbeam right-hand member, another the vertical longeron of installing in floorbar upper end right side of sliding No. two, No. two crossbeams of horizontal are installed to No. two longeron left ends, welding unit install in No. two crossbeam left ends.

When the intelligent laser cutting and welding all-in-one machine capable of producing the wine kettles in batches is used, a workpiece is moved to the lower portion of a beam through a clamp, a cutting assembly is moved to the upper portion of the workpiece along the beam, then the surface of the workpiece is vertically moved to the surface of a longitudinal beam, annular cutting is conducted on the workpiece, then the workpiece is moved to the lower portion of a second beam through the clamp, the welding assembly is moved to the upper portion of the workpiece along the second beam, then the surface of the workpiece is moved to the surface of the workpiece along the second longitudinal beam, and annular welding is conducted on the workpiece.

Preferably, the lower ends of the first longitudinal beam and the second longitudinal beam are respectively provided with a locking seat, and the locking seats are connected and locked with the sliding bottom beams through bolts. The first longitudinal beam and the second longitudinal beam are installed through bolts between the locking seats and the sliding bottom beams, the positions of the first longitudinal beam and the second longitudinal beam on the sliding bottom beams can be freely adjusted, and the most appropriate relative distance is selected according to different workpieces.

Preferably, the front end of the first cross beam is fixedly connected with a first vertical motor, the first vertical motor vertically displaces along the right end of the first longitudinal beam, the left end of the cutting assembly is fixedly connected with a first transverse moving motor, and the first transverse moving motor horizontally displaces along the first cross beam. The cutting assembly can move in the horizontal and vertical directions through the stepping motion of a first vertical motor and a first transverse moving motor.

Preferably, the rear end of the second cross beam is fixedly connected with a second vertical motor, the second vertical motor vertically displaces along the left end of the second longitudinal beam, the right end of the welding assembly is fixedly connected with a second transverse moving motor, and the second transverse moving motor horizontally moves back and forth along the second cross beam. The welding assembly can move in the horizontal and vertical directions through the stepping motion of the second vertical motor and the second transverse moving motor.

Preferably, the horizontal slide rail of installing in workstation upper end, the slide rail set up in between the floorbar slides, two sets of displacement motors are installed to slide rail upper end bilateral symmetry, anchor clamps are installed to the displacement motor upper end. The displacement motor drives the clamp to move transversely left and right along the slide rail and respectively reach the cutting or welding working areas on the two sides.

Preferably, the right end of the clamp and the left end of the other clamp are both provided with a rotating shaft seat, and the rotating shaft seats are used for fixing the wine pot workpiece. The workpiece can synchronously rotate through consolidation with the rotating shaft seat, and the cutting assembly and the welding assembly respectively form annular cutting seams and welding seams when acting on the workpiece.

Preferably, a positioning seat is fixedly connected to the middle of the slide rail, bolt holes are distributed in the upper end of the workbench, and the positioning seat is connected with the bolt holes through bolts. The slide rail can be conveniently adjusted on the workbench through the connection of the positioning seat and the bolt hole, so that workpieces with different shapes and sizes can be accurately processed.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a but intelligent laser of batch production flagon surely welds all-in-one adopts cutting assembly and the welding subassembly of installing on same processing platform, can cut and weldment work to the metal material of flagon in proper order, need not make a round trip to have enough to meet the need the work piece between various different equipment, machining efficiency is improved, cutting assembly and welding subassembly all function through automatically controlled driven mode, set for in advance the movement track, can be accurate reach the work piece processing position, the accuracy of processing is high, the finished product is of high quality.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of an intelligent laser cutting and welding integrated machine for mass production of wine pots according to the present invention;

FIG. 2 is a schematic front view of an embodiment of an intelligent laser cutting and welding integrated machine for mass production of wine pots according to the present invention;

FIG. 3 is a schematic side view of an embodiment of an intelligent laser cutting and welding integrated machine for mass production of wine pots according to the present invention;

fig. 4 is a schematic view of the top view structure of the embodiment of the intelligent laser cutting and welding integrated machine for mass production of wine kettles.

The labels in the figures are: 1. a chassis; 2. a work table; 3. sliding the bottom beam; 4. a first longitudinal beam; 5. a first beam; 6. a cutting assembly; 7. a second longitudinal beam; 8. a second beam; 9. welding the assembly; 10. a locking seat; 11. a first vertical motor; 12. a first transverse moving motor; 13. a second vertical motor; 14. a second traversing motor; 15. a slide rail; 16. a displacement motor; 17. a clamp; 18. a rotary shaft seat; 19. positioning seats; 20. and (4) bolting holes.

Detailed Description

The specific embodiment is an intelligent laser cutting and welding all-in-one machine for mass production of wine kettles, the three-dimensional structure of which is schematically shown in fig. 1, the front structure of which is schematically shown in fig. 2, the side structure of which is schematically shown in fig. 3, the top structure of which is schematically shown in fig. 4, this intelligence laser surely welds all-in-one machine includes quick-witted case 1, install workstation 2 in quick-witted case 1 upper end, set up in cutting assembly 6 and the welding subassembly 9 of workstation 2 top, workstation 2 upper end front and back bilateral symmetry installs horizontal floorbar 3 that slides, 3 upper end left sides vertical installations of floorbar 3 have longeron 4 No. one, a horizontal crossbeam 5 is installed to longeron 4 right-hand member, cutting assembly 6 installs in crossbeam 5 right-hand member No. one, another 3 upper end right sides vertical installations of floorbar 3 that slide have longeron 7 No. two, No. 7 left ends of longeron horizontal crossbeam 8 is installed to No. two, welding subassembly 9 installs in No. two 8 left ends of crossbeam.

For the present embodiment, the distance between the sliding bottom beams 3 is relatively fixed, and the sliding rail 15 can move horizontally back and forth, so that the distance between the sliding bottom beams 3 on two sides can be adjusted according to the different external dimensions of the workpiece, thereby facilitating the precise processing of the workpiece.

Wherein, the locking seat 10 is all installed to No. 4 longerons of longeron and No. 7 lower extremes of longeron, locks through bolted connection locking between seat 10 and the floorbar 3 that slides. The first longitudinal beam 4 and the second longitudinal beam 7 are installed through bolts between the locking seats 10 and the sliding bottom beam 3, the positions of the first longitudinal beam and the second longitudinal beam on the sliding bottom beam 3 can be freely adjusted, and the most appropriate relative distance is selected according to different workpieces.

Simultaneously, 5 front end fixedly connected with vertical motor 11 of crossbeam, vertical motor 11 is along 4 right-hand member vertical displacement of longeron No. one, cutting assembly 6 left end fixedly connected with sideslip motor 12 No. one, sideslip motor 12 is along the horizontal front and back displacement of crossbeam 5 No. one, No. two crossbeam 8 rear end fixedly connected with perpendicular motor 13 No. two, No. two perpendicular motor 13 are along the 7 left end vertical displacement of longeron No. two, welding assembly 9 right-hand member fixedly connected with sideslip motor 14 No. two, No. two sideslip motor 14 are along the horizontal back-and-forth movement of crossbeam 8 No. two. The cutting assembly 6 can move in the horizontal and vertical directions through the stepping motion of the first vertical motor 11 and the first transverse moving motor 12, and the welding assembly 9 can move in the horizontal and vertical directions through the stepping motion of the second vertical motor 13 and the second transverse moving motor 14.

In addition, the upper end of the workbench 2 is horizontally and transversely provided with a slide rail 15, the slide rail 15 is arranged between the sliding bottom beams 3, the upper end of the slide rail 15 is bilaterally symmetrically provided with two groups of displacement motors 16, the upper end of each displacement motor 16 is provided with a clamp 17, the middle of the slide rail 15 is fixedly connected with a positioning seat 19, the upper end of the workbench 2 is distributed with bolt holes 20, and the positioning seats 19 and the bolt holes 20 are connected through bolts. The displacement motor 16 drives the clamp 17 to move horizontally left and right along the slide rail 15 to reach the cutting or welding working areas on the two sides respectively, and the slide rail 15 can be conveniently adjusted in position on the workbench 2 through the connection of the positioning seat 19 and the bolting hole 20, so that workpieces with different shapes and sizes can be accurately machined.

In addition, the right end of the clamp 17 and the left end of the other clamp 17 are both provided with a rotating shaft seat 18, and the rotating shaft seat 18 is used for fixing a wine pot workpiece. The workpiece can rotate synchronously through the consolidation with the rotating shaft seat 18, and the cutting assembly 6 and the welding assembly 9 form annular cutting seams and welding seams respectively when acting on the workpiece.

When the intelligent laser cutting and welding integrated machine capable of producing the wine kettles in batches is used, a user installs the slide rail 15 at a proper position on the workbench 2 through the positioning seat 19, then adjusts the position of the locking seat 10 on the sliding bottom beam 3, fixedly installs a workpiece on the rotary shaft seat 18 through the clamp 17, then moves the workpiece to the position below the first cross beam 5 along the slide rail 15 through the displacement motor 16, the first transverse moving motor 12 drives the cutting assembly 6 to move to the position above the workpiece along the first cross beam 5, then the first vertical motor 11 drives the first cross beam 5 to vertically move downwards along the first longitudinal beam 4 until the cutting assembly 6 reaches the surface of the workpiece, the rotary shaft seat 18 drives the workpiece to rotate at a constant speed to form an annular cutting seam while cutting the workpiece, then the cutting assembly 6 resets, the workpiece moves to the position below the second cross beam 8 through the displacement motor 16, the welding assembly 9 moves to the upper part of the workpiece along the second cross beam 8 through the second transverse moving motor 14, and then the second vertical motor 13 drives the second cross beam 8 to vertically move downwards, so that the welding assembly 9 reaches the surface of the workpiece, and the workpiece is annularly welded while the rotary shaft seat 18 rotates.

Claims (7)

1. An intelligent laser cutting and welding integrated machine capable of producing wine kettles in batches comprises a case, a workbench arranged at the upper end of the case, a cutting assembly and a welding assembly, wherein the cutting assembly and the welding assembly are arranged above the workbench; the cutting assembly is characterized in that the transverse sliding bottom beams are symmetrically arranged on the front side and the rear side of the upper end of the workbench, a longitudinal beam is vertically arranged on the left side of the upper end of the sliding bottom beam, a horizontal cross beam is arranged on the right end of the longitudinal beam, the cutting assembly is arranged on the right end of the cross beam, another longitudinal beam is vertically arranged on the right side of the upper end of the sliding bottom beam, a horizontal cross beam is arranged at the left end of the second longitudinal beam, and the welding assembly is arranged at the left end of the second cross beam.

2. The intelligent laser cutting and welding all-in-one machine capable of producing wine kettles in batches is characterized in that the lower ends of the first longitudinal beam and the second longitudinal beam are respectively provided with a locking seat, and the locking seats are connected and locked with the sliding bottom beams through bolts.

3. The intelligent laser cutting and welding all-in-one machine capable of mass production of wine kettles as claimed in claim 1, wherein a first vertical motor is fixedly connected to the front end of the first cross beam, the first vertical motor is vertically displaced along the right end of the first longitudinal beam, a first transverse moving motor is fixedly connected to the left end of the cutting assembly, and the first transverse moving motor is horizontally displaced back and forth along the first cross beam.

4. The intelligent laser cutting and welding all-in-one machine capable of mass production of wine kettles as claimed in claim 1, wherein a second vertical motor is fixedly connected to the rear end of the second cross beam, the second vertical motor vertically displaces along the left end of the second longitudinal beam, a second transverse moving motor is fixedly connected to the right end of the welding assembly, and the second transverse moving motor horizontally moves back and forth along the second cross beam.

5. The intelligent laser cutting and welding all-in-one machine capable of producing wine kettles in batches is characterized in that slide rails are horizontally and transversely installed at the upper end of the workbench and arranged between the sliding bottom beams, two sets of displacement motors are symmetrically installed at the upper ends of the slide rails in the left-right direction, and clamps are installed at the upper ends of the displacement motors.

6. The intelligent laser cutting and welding all-in-one machine capable of mass production of wine kettles as claimed in claim 5, wherein the right end of one clamp and the left end of the other clamp are both provided with a rotary shaft seat, and the rotary shaft seats are used for fixing wine kettle workpieces.

7. The intelligent laser cutting and welding all-in-one machine capable of producing wine kettles in batches is characterized in that a positioning seat is fixedly connected to the middle of the sliding rail, bolt holes are distributed in the upper end of the workbench, and the positioning seat is connected with the bolt holes through bolts.

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