CN219310336U - Laser welding machine capable of rapidly radiating heat - Google Patents

Abstract

The utility model relates to the technical field of laser welding machines and discloses a laser welding machine capable of rapidly radiating, which comprises a workbench, wherein a turnover table plate is rotatably arranged on the workbench, a clamping assembly is arranged on the turnover table plate, a radiating assembly positioned below the turnover table plate is arranged in the workbench, the clamping assembly comprises a fractal vice A fixedly arranged above the turnover table plate, a fractal vice B fixedly arranged below the turnover table plate, and the radiating assembly comprises an installation frame fixedly arranged in the workbench and positioned below the turnover table plate and a radiating fan fixedly arranged above the installation frame. The utility model has the beneficial effect of fast radiating the welded workpiece, and solves the problem that the traditional laser welding machine does not have a device for radiating the welded workpiece, and when a worker takes the welded workpiece, the worker is easy to be scalded by the workpiece with higher surface temperature.

Description

Laser welding machine capable of rapidly radiating heat

Technical Field

The utility model relates to the technical field of laser welding machines, in particular to a laser welding machine capable of rapidly radiating heat.

Background

Laser welding is to use high-energy laser pulse to locally heat the material in micro-area, and the energy of laser radiation is guided to the internal diffusion of the material through heat transfer to melt the material to form a specific molten pool. The novel welding mode is mainly used for welding thin-wall materials and precise parts, spot welding, butt welding, sealing welding and the like can be realized, the welding speed is high, the welding seam is smooth and attractive, no treatment or simple treatment is needed after welding, and the welding seam quality is high.

In operation, a laser welder typically performs a welding process on a work piece on a work table. The surface temperature of the welded workpiece is high, and heat dissipation is required. However, the conventional heat dissipating device of the laser welding machine aims to prolong the service life of equipment, only dissipates heat for electronic components of the welding machine, and does not have a device for dissipating heat for welded workpieces.

Disclosure of Invention

The utility model aims to provide a laser welding machine capable of rapidly radiating heat so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a but quick radiating laser welding machine, includes workstation, its characterized in that: the rotary table is characterized in that a turnover table plate is rotatably arranged on the workbench, a clamping assembly is arranged on the turnover table plate, a heat dissipation assembly located below the turnover table plate is arranged inside the workbench, a driving assembly used for driving the turnover table plate to turn is arranged on the workbench, a limiting assembly used for limiting the turnover of the turnover table plate is arranged on the workbench, the clamping assembly comprises a fractal vice A fixedly installed above the turnover table plate and a fractal vice B fixedly installed below the turnover table plate, and the heat dissipation assembly comprises a mounting frame fixedly installed inside the workbench and located below the turnover table plate and a heat dissipation fan fixedly installed above the mounting frame.

Preferably, the driving assembly comprises a rotating shaft, a supporting frame fixedly installed above the installation frame and a motor fixedly installed behind the workbench, the rotating shaft is rotationally connected with the workbench and the supporting frame through a bearing, the rotating shaft is fixedly connected with the turnover bedplate and located between the fractal vice A and the fractal vice B, and an output shaft of the motor is fixedly connected with the rotating shaft.

Preferably, the limiting component comprises a connecting column, a limiting plate A movably arranged on the connecting column and positioned above the turnover platen, and a limiting plate B fixedly arranged on the connecting column and positioned below the turnover platen, wherein a sliding groove is formed in the workbench, the connecting column is positioned in the sliding groove, and the length of the sliding groove is twice that of the limiting plate A and half of the sliding groove is positioned in front of the turnover platen.

Preferably, the limiting assembly further comprises a nut, the connecting column is a stud, the nut is in threaded transmission connection with the connecting column, and the nut is located above the limiting plate A.

Preferably, the bottom of the mounting frame is provided with a ventilation groove A, and the workbench is provided with a ventilation groove B positioned below the ventilation groove A.

Preferably, the left side and the right side of the turnover bedplate are provided with weight reducing grooves for reducing weight.

Preferably, supporting feet for supporting the whole machine are fixedly arranged below the workbench.

The utility model has the beneficial effects that: when a laser welding machine needs to weld workpieces, the workpieces to be welded are placed on the fractal vice A to be clamped, and the workpieces on the fractal vice A can be welded after being clamped; when a workpiece on the fractal vice A is required to be cooled after welding, the turnover platen is required to rotate, the connecting column is slid to the forefront of the sliding groove, the limiting plate A and the limiting plate B are not in contact with the turnover platen, the turnover platen can rotate freely, the driving assembly is started to drive the turnover platen to rotate 180 degrees, the connecting column is slid to the rearmost side of the sliding groove after the rotation of the turnover platen is completed, the limiting plate A and the limiting plate B are propped against the turnover platen, the turnover platen is limited to rotate, and because the fractal vice A is fixedly arranged above the turnover platen, the fractal vice A and the fractal vice B are fixedly arranged below the turnover platen, the fractal vice A and the fractal vice B can rotate 180 degrees along with the turnover platen, the fractal vice A is positioned below the turnover platen after rotation, the workpiece on the fractal vice A can rotate 180 degrees along with the fractal vice A and is positioned right above the cooling fan, and the workpiece on the fractal vice A can be cooled by blowing by starting the cooling fan; when the workpiece on the fractal vice A is cooled by blowing, placing the next workpiece to be welded on the fractal vice B to clamp the next workpiece, and welding the workpiece on the fractal vice B while the workpiece on the fractal vice A is cooled by blowing; when the workpiece on the fractal vice B is required to be subjected to heat dissipation after the welding, the driving assembly is started to drive the turnover platen to rotate 180 degrees, so that the fractal vice A is positioned above the turnover platen, the fractal vice B is positioned below the turnover platen, the heat dissipation fan is started to cool the workpiece on the fractal vice B in a blowing manner, and meanwhile, the workpiece on the fractal vice A is replaced to perform the next round of welding. In summary, the utility model has the beneficial effect of fast heat dissipation of the welded workpiece, and solves the problems that the traditional laser welding machine does not have a device for heat dissipation of the welded workpiece, and workers can be easily scalded by the workpiece with higher surface temperature when taking the welded workpiece.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the front internal structure of the present utility model;

FIG. 3 is a schematic side internal structure of the present utility model;

FIG. 4 is a schematic view of a clamping assembly of the present utility model;

FIG. 5 is a schematic view of a spacing assembly of the present utility model;

FIG. 6 is a top view of the present utility model;

FIG. 7 is a cross-sectional view taken at A-A of FIG. 6;

fig. 8 is an enlarged view at a in fig. 7.

In the figure: the device comprises a workbench 1, a turnover bedplate 2, a fractal vice A3, a fractal vice B4, a mounting frame 5, a cooling fan 6, a rotating shaft 7, a supporting frame 8, a motor 9, a connecting column 10, a limiting plate A11, a limiting plate B12, a sliding groove 13, a nut 14, a ventilation groove A15, a ventilation groove B16, a weight reduction groove 17 and supporting legs 18.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1-8, the utility model discloses a laser welding machine capable of rapidly radiating heat, which comprises a workbench 1, wherein a turnover bedplate 2 is rotatably arranged on the workbench 1, a clamping component is arranged on the turnover bedplate 2, a heat radiating component positioned below the turnover bedplate 2 is arranged in the workbench 1, a driving component for driving the turnover bedplate 2 to turn is arranged on the workbench 1, a limiting component for limiting the turnover of the turnover bedplate 2 is arranged on the workbench 1, the clamping component comprises a fractal vice A3 fixedly arranged above the turnover bedplate 2, a fractal vice B4 fixedly arranged below the turnover bedplate 2, and the heat radiating component comprises a mounting frame 5 fixedly arranged inside the workbench 1 and positioned below the turnover bedplate 2 and a heat radiating fan 6 fixedly arranged above the mounting frame 5. When a laser welding machine needs to weld workpieces, the workpieces to be welded are placed on the fractal vice A3 to be clamped, and the workpieces on the fractal vice A3 can be welded after being clamped; when the workpiece on the fractal vice A3 is required to be cooled after being welded, the turnover platen 2 is required to rotate, the connecting column 10 is slid to the forefront of the sliding groove 13, the limiting plate A11 and the limiting plate B12 are not in contact with the turnover platen 2, the turnover platen 2 can rotate freely, the starting driving component drives the turnover platen 2 to rotate 180 degrees, after the turnover platen 2 rotates, the connecting column 10 is slid to the rearmost part of the sliding groove 13, the limiting plate A11 and the limiting plate B12 prop against the turnover platen 2, the turnover platen 2 is limited to rotate, and as the fractal vice A3 is fixedly arranged above the turnover platen 2, the fractal vice B4 is fixedly arranged below the turnover platen 2, the fractal vice A3 and the fractal vice B4 can rotate 180 degrees along with the turnover platen 2, the fractal vice A3 is positioned below the turnover platen 2, the fractal vice B4 is positioned above the turnover platen 2, the workpiece on the fractal vice A3 can rotate 180 degrees along with the fractal vice A3 and is positioned right above the cooling fan 6, and the cooling fan 6 is started to cool the workpiece on the fractal vice A3; when the workpiece on the fractal vice A3 is cooled by blowing, the next workpiece to be welded is placed on the fractal vice B4 to clamp the workpiece, and the workpiece on the fractal vice A3 is cooled by blowing and simultaneously the workpiece on the fractal vice B4 is welded; when the workpiece on the fractal vice B4 is required to be subjected to heat dissipation after being welded, the driving assembly is started to drive the turnover platen 2 to rotate 180 degrees, the fractal vice A3 is located above the turnover platen 2, the fractal vice B4 is located below the turnover platen 2, the heat dissipation fan 6 is started to blow and cool the workpiece on the fractal vice B4, and meanwhile the workpiece on the fractal vice A3 is replaced to perform the next round of welding. In summary, the utility model has the beneficial effect of fast heat dissipation of the welded workpiece, and solves the problems that the traditional laser welding machine does not have a device for heat dissipation of the welded workpiece, and workers can be easily scalded by the workpiece with higher surface temperature when taking the welded workpiece.

Preferably, the driving assembly comprises a rotating shaft 7, a supporting frame 8 fixedly installed above the installation frame 5, and a motor 9 fixedly installed behind the workbench 1, wherein the rotating shaft 7 is rotationally connected with the workbench 1 and the supporting frame 8 through bearings, the rotating shaft 7 is fixedly connected with the turnover bedplate 2 and is positioned between the fractal vice A3 and the fractal vice B4, and an output shaft of the motor 9 is fixedly connected with the rotating shaft 7. When the turnover platen 2, the fractal vice A3 and the fractal vice B4 need to perform rotary motion, as the rotary shaft 7 is rotationally connected with the workbench 1 and the support frame 8 through the bearings, the rotary shaft 7 is fixedly connected with the turnover platen 2, the output shaft of the motor 9 is fixedly connected with the rotary shaft 7, the motor 9 is started to enable the output shaft of the motor 9 to perform rotary motion, the rotary shaft 7 can be driven to perform rotary motion, the rotary shaft 7 drives the turnover platen 2 to perform rotary motion, and the functions of driving the turnover platen 2, the fractal vice A3 and the fractal vice B4 to perform rotary motion can be achieved.

Preferably, the limiting assembly comprises a connecting column 10, a limiting plate A11 movably arranged on the connecting column 10 and positioned above the turnover platen 2, and a limiting plate B12 fixedly arranged on the connecting column 10 and positioned below the turnover platen 2, wherein a sliding groove 13 is formed in the workbench 1, the connecting column 10 is positioned in the sliding groove 13, and the length of the sliding groove 13 is twice that of the limiting plate A11 and half of the sliding groove is positioned in front of the turnover platen 2. Because the limiting plate A11 is positioned above the turnover platen 2, the limiting plate B12 is positioned below the turnover platen 2, the connecting column 10 is positioned in the sliding groove 13, the length of the sliding groove 13 is twice as long as that of the limiting plate A11, and half of the length of the sliding groove is positioned in front of the turnover platen 2, when the turnover platen 2 does not need to rotate, the connecting column 10 is slid to the rearmost part of the sliding groove 13, so that the limiting plate A11 and the limiting plate B12 prop against the turnover platen 2, and the turnover platen 2 is limited to rotate; when the turning platen 2 needs to rotate, the connecting column 10 is slid to the forefront of the sliding groove 13, so that the limiting plate A11 and the limiting plate B12 are not contacted with the turning platen 2, and the turning platen 2 can rotate freely.

Preferably, the limiting assembly further comprises a nut 14, the connecting column 10 is a stud, the nut 14 is in threaded transmission connection with the connecting column 10, and the nut 14 is located above the limiting plate A11. Because the nut 14 is in threaded transmission connection with the connecting column 10, the nut 14 is positioned above the limiting plate A11, the nut 14 can block the limiting plate A11 to prevent the limiting plate A11 from sliding out of the connecting column 10, the nut 14 is screwed to fixedly connect the limiting plate A11 with the workbench 1, the connecting column 10 can be fixed to prevent the connecting column from moving, and the connecting column 10 can be freely moved by loosening the nut 14.

Preferably, a ventilation groove a15 is formed in the bottom of the mounting frame 5, and a ventilation groove B16 located below the ventilation groove a15 is formed in the workbench 1. Because ventilation groove A15 has been seted up to the bottom of mounting bracket 5, and ventilation groove B16 that is located ventilation groove A15 below has been seted up to workstation 1, and when radiator fan 6 started, air can circulate to workstation 1 inside from ventilation groove A15 and ventilation groove B16, has played the inside circulation of air's of convenient workstation 1 effect.

Preferably, the left and right sides of the turnover platen 2 are provided with weight reducing grooves 17 for reducing weight. Because the weight reducing grooves 17 for reducing the weight are formed in the left side and the right side of the turnover platen 2, the weight of the turnover platen 2 is reduced, the weight loaded when the output shaft of the motor 9 rotates is reduced, and the service life of the motor 9 is prolonged.

Preferably, a supporting leg 18 for supporting the whole machine is fixedly arranged below the workbench 1. The supporting feet 18 for supporting the whole machine are fixedly arranged below the workbench 1, so that the function of stably supporting the whole machine is achieved.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. The utility model provides a but quick radiating laser welding machine, includes workstation (1), its characterized in that: the utility model discloses a rotary table, including workstation (1), workstation (1) is provided with upset platen (2), be equipped with clamping assembly on upset platen (2), workstation (1) inside is equipped with the radiator unit that is located upset platen (2) below, be equipped with the drive assembly who is used for driving upset platen (2) upset on workstation (1), be equipped with the spacing subassembly that is used for restricting upset platen (2) upset on workstation (1), clamping assembly includes fractal vice A (3) of fixed mounting in upset platen (2) top, fractal vice B (4) of fixed mounting in upset platen (2) below, radiator unit includes mounting bracket (5) of fixed mounting in workstation (1) inside and being located upset platen (2), radiator fan (6) of fixed mounting in mounting bracket (5) top.

2. A rapid thermal dissipation laser welding machine as defined in claim 1, wherein: the driving assembly comprises a rotating shaft (7), a supporting frame (8) fixedly installed above the installation frame (5) and a motor (9) fixedly installed behind the workbench (1), wherein the rotating shaft (7) is rotationally connected with the workbench (1) and the supporting frame (8) through bearings, the rotating shaft (7) is fixedly connected with the turnover bedplate (2) and located between the fractal vice A (3) and the fractal vice B (4), and an output shaft of the motor (9) is fixedly connected with the rotating shaft (7).

3. A rapid thermal dissipation laser welding machine according to claim 2, wherein: the limiting assembly comprises a connecting column (10), a limiting plate A (11) movably arranged on the connecting column (10) and located above the turnover platen (2), and a limiting plate B (12) fixedly arranged on the connecting column (10) and located below the turnover platen (2), wherein a sliding groove (13) is formed in the workbench (1), the connecting column (10) is located in the sliding groove (13), and the length of the sliding groove (13) is twice that of the limiting plate A (11) and half of the length of the sliding groove is located in front of the turnover platen (2).

4. A rapid thermal dissipation laser welding machine according to claim 3, wherein: the limiting assembly further comprises a nut (14), the connecting column (10) is a stud, the nut (14) is in threaded transmission connection with the connecting column (10), and the nut (14) is located above the limiting plate A (11).

5. The rapid heat dissipation laser welding machine of claim 4, wherein: the bottom of the mounting frame (5) is provided with a ventilation groove A (15), and the workbench (1) is provided with a ventilation groove B (16) positioned below the ventilation groove A (15).

6. The rapid heat dissipation laser welding machine of claim 5, wherein: weight reducing grooves (17) for reducing weight are formed in the left side and the right side of the turnover bedplate (2).

7. The rapid heat dissipation laser welding machine of claim 6, wherein: supporting feet (18) for supporting the whole machine are fixedly arranged below the workbench (1).

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