CN209998564U - Multi-process quick welding device and system for honeycomb aluminum and aluminum alloy - Google Patents

Abstract

The utility model relates to the field of welding technique, be used for quick welding set of honeycomb aluminium and many technologies of aluminum alloy is provided, including single laser welding module, mounting bracket and supplementary welding unit, the mounting bracket has two at least installation positions and supplies mounting bracket fixed mounting to construct the second installation position on the peripheral hardware, single laser welding module can be dismantled and vertically install on wherein installation position through switching structure, supplementary welding unit passes through second switching structure demountable installation in other installation positions still provide be used for quick welding system of many technologies of honeycomb aluminium and aluminum alloy, including foretell device.

Description

Multi-process quick welding device and system for honeycomb aluminum and aluminum alloy

Technical Field

The utility model relates to a welding technology field specifically is kinds of quick welding set of many technologies of being used for honeycomb aluminium and aluminum alloy and system.

Background

The existing honeycomb aluminum and aluminum alloy welding technology is still stopped on the most traditional manual welding equipment and process method, the welding speed is low in efficiency, the production efficiency is low, the thermal deformation is large, the product size precision is poor, the appearance of the welded product is poor, the surface pores are many, the tensile strength is low, and the quality requirements of the existing high-speed rail train manufacturing industries such as high-speed rails, subways and motor train units and other aluminum alloy manufacturing industries are difficult to meet.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide be used for many technology quick welding set of honeycomb aluminium and aluminum alloy and system, through with the equal modularization of laser welding and other kinds of welding process, the mounting bracket has the installation position that supplies the modularization installation, consequently when what material needs to be processed, just adopts what module, has promoted welding speed and production efficiency, and the product quality who obtains than artifical manual welding is higher moreover.

In order to achieve the purpose, the embodiment of the utility model provides an be used for many technologies of honeycomb aluminium and aluminum alloy fast welding set, including single laser welding module, still include the mounting bracket and can cooperate the supplementary welding unit of single laser welding module welding, the mounting bracket has two at least installation positions and supplies mounting bracket fixed mounting is in the second installation position on peripheral hardware, single laser welding module passes through switching structure can dismantle and vertical installation wherein on installation position, supplementary welding unit passes through second switching structure demountable installation in addition on installation position.

step forward, supplementary welding element includes single argon arc welding module, second switching structure includes argon arc welding adaptor, single argon arc welding module passes through argon arc welding adaptor demountable installation is wherein on the installation position.

, the auxiliary welding unit further comprises a laser filler wire welding module, the second switching structure comprises a filler wire adapter, and the laser filler wire welding module is detachably mounted on installation positions through the filler wire adapter.

, the number of installation positions is three, the single laser welding module passes through the switching structure can be dismantled and vertically install wherein on the installation positions, the single argon arc welding module passes through argon arc welding adaptor demountable installation is in another on the installation positions, the laser filler wire welding module passes through filler wire adaptor demountable installation is in remaining on the installation positions.

, the device further comprises two adjusting mechanisms for driving the single argon arc welding module and the laser filler wire welding module to perform fine adjustment in three directions of XYZ, respectively, wherein the argon arc welding adaptor comprises a connecting plate, of the single argon arc welding modules are mounted on the connecting plate, the connecting plate is detachably mounted on of the mounting positions, and the laser filler wire welding module is mounted on the other of the mounting positions through another of the adjusting mechanisms.

steps are advanced, every guiding mechanism all including being used for driving the module at the X axle stroke adjustment structure that the X direction removed, being used for driving the Y axle stroke adjustment structure that the module removed in the Y direction and being used for driving the Z axle stroke adjustment structure that the module removed in the Z direction, Z axle stroke adjustment structure is vertical to be connected Y axle stroke adjustment structure side, X axle stroke adjustment structure is vertical to be connected Z axle stroke adjustment structure side, single argon arc welding module Y axle stroke adjustment structure level is settled on the connecting plate, single argon arc welding module is installed on single argon arc welding module's the X axle stroke adjustment structure, laser filler wire welding module Y axle stroke adjustment structure is installed among them on the mount location, laser filler wire welding module is installed laser filler wire welding module's X axle stroke adjustment structure is last.

, the laser wire-filling welding device further comprises two rotating structures which respectively drive the single argon arc welding module and the laser wire-filling welding module to rotate, wherein the rotating structure of the single argon arc welding module is installed on the X-axis stroke adjusting structure of the single argon arc welding module, the direction of the rotating axis of the rotating structure of the single argon arc welding module is consistent with the driving direction of the Y-axis stroke adjusting structure of the single argon arc welding module, the rotating structure of the laser wire-filling welding module is installed on the X-axis stroke adjusting structure of the laser wire-filling welding module, and the rotating axis of the rotating structure of the laser wire-filling welding module is consistent with the driving direction of the Z-axis stroke adjusting structure of the laser wire-filling welding module.

step further, still including being used for ordering about respectively single argon arc welding module with laser fills a welding module around two rotatory second revolution mechanic of self axis, single argon arc welding module second revolution mechanic is installed single argon arc welding module X axle stroke adjustment is structural, laser fills a welding module second revolution mechanic is installed laser welding module X axle stroke adjustment is structural.

, the mounting frame has two mounting surfaces, two mounting positions are respectively located in the two mounting surfaces, and the two mounting surfaces are adjacently arranged.

The embodiment of the utility model provides an kind technical scheme in addition are used for many technologies of honeycomb aluminium and aluminum alloy fast welding system , including the automatic servo moving beam of dragon formula, peripheral auxiliary assembly and be used for transporting the automatic servo moving platform who processes the work piece, still include foretell be used for many technologies of honeycomb aluminium and aluminum alloy fast welding set, the automatic servo moving beam fixed mounting of dragon formula is in on the second installation position of mounting bracket, automatic servo moving platform locates be used for the below of many technologies of honeycomb aluminium and aluminum alloy fast welding set.

Compared with the prior art, the beneficial effects of the utility model are that: through with laser welding and the equal modularization of other kind of welding process, the mounting bracket has the installation position that supplies the modularization installation, consequently when what material needs to be processed, just adopts what module, has promoted welding speed and production efficiency, and the product quality who obtains than artifical manual welding is higher moreover.

Drawings

Fig. 1 is a schematic diagram of types of rapid welding apparatuses for honeycomb aluminum and aluminum alloy multiple processes provided by embodiment of the present invention, in which a single laser welding module and a single argon arc welding module are installed;

fig. 2 is a schematic view of a view angle of kinds of installation single laser welding modules and laser filler wire welding modules for a multi-process rapid welding device for honeycomb aluminum and aluminum alloy according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a second view angle of kinds of multi-process rapid welding devices for aluminum honeycomb and aluminum alloy provided by embodiment of the present invention, in which a single laser welding module and a laser filler wire welding module are installed;

fig. 4 is a schematic diagram of a third view angle of kinds of installation single laser welding modules and laser filler wire welding modules for a multi-process rapid welding device for honeycomb aluminum and aluminum alloy according to an embodiment of the present invention;

fig. 5 is a schematic view of a viewing angle of kinds of systems for multi-process rapid welding of aluminum honeycomb and aluminum alloy according to an embodiment of the present invention;

fig. 6 is a schematic view of a second perspective view of kinds of systems for multi-process rapid welding of aluminum honeycomb and aluminum alloy according to the second embodiment of the present invention;

the reference signs include 1-single laser welding module, 2-single argon arc welding module, 3-laser wire filling welding module, 4- th installation position, 5-second installation position, 6-connecting plate, 7-installation surface, 8-dragon type automatic servo moving beam, 9-automatic servo moving platform, 10- th adjusting bolt, 11- hard guide rail, 12- th fixed block, 13-second fixed block, 20-second adjusting bolt, 21-second guide rail groove, 22-third fixed block, 30-third adjusting bolt, 31-third guide rail groove, 32-fifth fixed block, 33-sixth fixed block, 40- rotating structure, 41-second rotating structure, a-X axis stroke adjusting structure, b-Y axis stroke adjusting structure, c-Z axis stroke adjusting structure and d-multi-process quick welding device for honeycomb aluminum and aluminum alloy.

Detailed Description

The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of , but not all embodiments.

Example :

referring to fig. 1-4, the present invention provides apparatus for multi-process rapid welding of aluminum and aluminum alloy honeycomb, including a single laser welding module 1, a mounting frame, and an auxiliary welding unit capable of being welded with the single laser welding module 1, wherein the mounting frame has at least two mounting locations 4 and a second mounting location 5 for fixedly mounting the mounting frame on a peripheral structure, the single laser welding module 1 is detachably and vertically mounted on mounting location 4 of 1 through a -th adapter structure, the auxiliary welding unit is detachably mounted on mounting location 4 through a second adapter structure, in this embodiment, the single laser welding module 1 of the apparatus can be independently operated to complete laser welding when welding, the single laser welding module 1 is engaged with the auxiliary welding unit when welding aluminum alloy of different materials, the single laser welding module 1 and the auxiliary welding unit are detachably mounted on a mounting frame through the adapter structure, which the single laser welding module 1 and the auxiliary welding unit are detachably mounted on a mounting frame can be detachably connected with a mounting frame 38, the mounting frame 16, the mounting frame can be detachably connected with a plurality of detachable mounting modules through a plurality of detachable mounting structures, the peripheral modules, the peripheral module mounting frame can be easily installed on a detachable mounting structure, the peripheral module can be easily installed by a removable welding module, the peripheral module can be easily installed by a plurality of peripheral module, the peripheral module can be easily installed by a plurality of peripheral module, the peripheral module can be installed by a plurality of peripheral module, the peripheral module can be installed by a plurality of the peripheral module, the peripheral module.

In this embodiment, the auxiliary welding unit is a single argon arc welding module 2, which can provide argon arc welding, and the module can be combined with the single laser welding module 1 to form a laser and argon arc composite welding process, when the welded aluminum alloy product needs the process, the single argon arc welding module 2 is mounted on the th mounting position 4 of the mounting rack through the argon arc welding adapter, and the concrete switching form of the argon arc welding adapter is similar to the switching structure, and here, the switching structure is not repeated.

, the auxiliary welding unit is optimized, referring to fig. 1-4, the auxiliary welding unit further includes a laser filler wire welding module 3, the second switching structure includes a filler wire adapter, the laser filler wire welding module 3 is detachably mounted on installation positions 4 of 0 through the filler wire adapter, in this embodiment, the auxiliary welding unit is further to form the laser filler wire welding module 3, which can feed wires during laser welding, and this module can be combined with the single laser welding module 1 to form a laser + filler wire welding process, when a welded aluminum alloy product requires this process, the laser filler wire welding module 3 can be mounted on the installation position 4 of the mounting frame through the filler wire adapter, as for a specific switching form of the filler wire adapter, it is similar to the aforementioned switching structure, which is not described herein again, and the installation positions 4 of of the laser filler wire welding module 3 may be another installation position 4 of the argon arc welding module 4835, but the laser filler wire welding module is mounted on the argon arc welding module 4834, and the argon arc welding module may be mounted on the argon arc 4834, and the argon arc welding module may be mounted without dismounting the laser filler wire welding module.

, referring to fig. 1-4, the number of mounting positions 4 is three, the single laser welding module 1 is detachably and vertically mounted on 632 of the th mounting positions 4 through the th adaptor structure, the single argon arc welding module 2 is detachably mounted on the other th mounting positions 4 through the argon arc welding adaptor, and the laser filler wire welding module 3 is detachably mounted on the remaining th mounting positions 4 through the filler wire adaptor.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1-4, the apparatus further includes two adjusting mechanisms for respectively driving the single argon arc welding module 2 and the laser filler wire welding module 3 to perform fine adjustment in three XYZ directions, the argon arc welding adaptor includes a connecting plate 6, the single argon arc welding module 2 is mounted on the connecting plate 6 through adjusting mechanisms therein, the connecting plate 6 is detachably mounted on of the mounting positions 4, the laser filler wire welding module 3 is mounted on another of the mounting positions 4 through another adjusting mechanisms, in the present embodiment, the single argon arc welding module 2 and the laser filler wire welding module 3 are both capable of performing fine adjustment in three XYZ directions under the adjusting mechanism, so as to facilitate the welding operation, the single argon arc welding module 2 is relatively large in size, the size of the adjusting mechanism is relatively large , so that it needs to be additionally mounted through connecting plates 6, the laser filler wire welding module 3 is mainly installed, so that the size of the single argon arc welding module is not too large, it can be directly mounted on the adjusting mechanism, and the mounting mechanism is not distinguished from the mounting mechanism, and the mounting mechanism is not described below.

In an embodiment, the adjusting mechanism is optimized, referring to fig. 1-4, each comprises an X-axis stroke adjusting structure a for driving a module to move in an X direction, a Y-axis stroke adjusting structure b for driving a module to move in a Y direction, and a Z-axis stroke adjusting structure c for driving a module to move in a Z direction, the Z-axis stroke adjusting structure c is vertically connected to the Y-axis stroke adjusting structure b side, the X-axis stroke adjusting structure a is vertically connected to the Z-axis stroke adjusting structure c side, the Y-axis stroke adjusting structure b of the single argon arc welding module 2 is horizontally arranged on the connecting plate 6, the single argon arc welding module 2 is arranged on the X-axis stroke adjusting structure a of the single argon arc welding module 2, the Y-axis stroke adjusting structure b of the laser filler wire welding module 3 is arranged on the mounting position 4 of the single argon arc welding module , the laser filler wire welding module 3 is arranged on the X-axis stroke adjusting structure a of the single argon arc filler wire welding module 3, the single argon arc welding module 2 is arranged on an X-axis stroke adjusting structure b, the connecting plate 3, the single argon arc welding module 2, the connecting plate 3 is arranged on a connecting plate, the Z-axis stroke adjusting structure b, the single argon arc welding module 2, the connecting plate 3, the single argon wire is arranged on a, the connecting plate 3, the single argon welding module, the single argon arc welding module 2, the single argon wire is arranged on the single argon welding module 2, the single argon wire, the connecting plate 3, the single argon arc wire, the single argon welding module 2, the single argon wire is arranged on the single argon welding module, the single argon welding module 2, the single argon wire stroke adjusting structure b, the connecting plate 3, the connecting plate is arranged on the single argon arc welding module, the single argon wire is arranged on the single argon arc welding module, the single argon arc wire, the single argon welding module, the single argon arc welding module is arranged on the single argon welding module, the single argon wire is arranged on the single argon welding module, the single argon arc welding module, the single argon arc.

Referring to fig. 1-4, is further stepped to refine the X-axis stroke adjustment structure a, the Y-axis stroke adjustment structure b, and the Z-axis stroke adjustment structure c, since the adjustment mechanism of the single argon arc welding module 2 and the adjustment mechanism of the laser filler wire welding module 3 are the same, only of these structures are described here, the X-axis stroke adjustment structure a, the Y-axis stroke adjustment structure b, and the Z-axis stroke adjustment structure c are all screw drives, specifically, in the X-axis stroke adjustment structure a, there are the adjustment bolt 10, the hard guide rail 11, the fixed block 12, and the second fixed block 13 disposed at a distance from the fixed block 12 of the , the fixed block 12 of the third bolt 7 adjustment bolt 10 and the fixed block 12 are in threaded connection, the adjustment bolt 10 and the second fixed block 13 are in a relatively locked state, only the bolt 10 and the second fixed block 13 are relatively rotated and do not relatively move, the adjustment bolt 25 and the second fixed block 13 are not relatively moved, the bolt 10 and the bolt 12 is in a relatively locked state, the adjustment bolt 10 and the second bolt adjustment structure 13 is also disposed in the fixed block 20, the Z-axis direction, the bolt adjustment structure is rotated and does not move along the third bolt adjustment groove 21, the bolt adjustment groove 32, the bolt adjustment groove 30, the bolt adjustment groove 32, the bolt adjustment groove is disposed along the direction, the bolt adjustment groove 21, the bolt adjustment groove 32, the bolt adjustment groove is disposed relatively, the bolt adjustment groove 30, the bolt adjustment groove is disposed along the bolt adjustment groove, the bolt adjustment groove 21, the bolt adjustment groove is disposed along the bolt adjustment groove, the bolt adjustment groove is disposed along the bolt adjustment groove, the bolt adjustment groove is only, the bolt adjustment groove is disposed along the bolt adjustment groove, the.

As an optimization of the embodiment of the present invention, please refer to fig. 1-4, the apparatus further includes two rotating structures 40 for driving the single argon arc welding module 2 and the laser filler wire welding module 3 to rotate respectively, the rotating structure of the single argon arc welding module 2 is installed on the X-axis stroke adjusting structure a of the single argon arc welding module 2, and the rotation axis direction of the -0 rotating structure 40 of the single argon arc welding module 2 is the same as the driving direction of the Y-axis stroke adjusting structure b of the single argon arc welding module 2, the rotating structure of the -th rotating structure 40 of the laser filler wire welding module 3 is installed on the X-axis stroke adjusting structure 865a of the laser filler wire welding module 3, and the rotation axis of the -th rotating structure 40 of the laser filler wire welding module 3 is the same as the driving direction of the Z-axis stroke adjusting structure c of the laser filler wire welding module 3, in order to make the single argon arc welding module and the laser filler wire welding module have abundant adjustment dimensions, the rotation axis of the rotating structure 3640 is driven by the rotating structure 363, and the rotating structure 3625 of the single argon arc welding module 3 is the rotating structure 363, so that the rotating structure may be used for distinguishing the rotating structure 363 and the rotating structure of the rotating structure 363.

The th rotating structure 40 of the single argon arc welding module 2 and the corresponding X-axis stroke adjusting structure a thereof are positioned through a central hole, and a waist-shaped hole is formed around the rotating structure 40, so that an arc welding gun head and a laser welding gun head can have an included angle of , and the arc welding gun head can also be rotated around the Y-axis on the existing basis to ensure a good welding included angle.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1-4, the present device further includes two second rotating structures 41 for respectively driving the single argon arc welding module 2 and the laser wire-filling welding module 3 to rotate around its axis, the second rotating structure 41 of the single argon arc welding module 2 is installed on the X-axis stroke adjusting structure a of the single argon arc welding module 2, and the second rotating structure 41 of the laser wire-filling welding module 3 is installed on the X-axis stroke adjusting structure a of the laser wire-filling welding module 3. In the embodiment, in order to make the single argon arc welding gun head and the laser filler wire gun head have rich adjustment dimensions, the second rotating structure 41 is adopted to drive the single argon arc welding module 2 and the laser filler wire welding module 3 to rotate 360 ° around the axes thereof. Since the working principle and the working mode of the second rotating structure 41 adopted by the two rotating structures are the same, the two second rotating structures 41 are not distinguished in the present embodiment, and the difference may only be in size and installation position, and the following embodiment also distinguishes them by the second rotating structure 41 of the single argon arc welding module 2 and the second rotating structure 41 of the laser filler wire welding module 3 to ensure the brevity of the lines.

The second rotating structure 41 is optimized, please refer to fig. 1-4, and since the two are the same, only of the rotating structures are described here, the second rotating structure 41 and the semi-circular arc can be connected by bolts to lock the arc welding gun head or the wire filling gun head, when the arc welding gun head or the wire filling gun head needs to be rotated, only two connecting bolts need to be loosened, the arc welding gun head or the wire filling gun head can rotate 360 degrees around the axis of the arc welding gun head or the wire filling gun head, and after the arc welding gun head or the wire filling gun head rotates to a proper position, the bolts are tightened again to clamp and lock the arc welding gun head or the wire filling.

In the embodiment, due to the size limitation of the single argon arc welding module 2, the mounting position 4 of the single argon arc welding module 2 and the mounting position 4 of the laser filler wire welding module 3 cannot be on the same plane to prevent interference, therefore, the two mounting positions 4 are distributed on different mounting surfaces 7, preferably, an included angle is formed between the two mounting surfaces 7, and the two mounting surfaces 7 are preferably vertical.

Example two:

referring to fig. 5-6, an embodiment of the present invention provides a rapid welding system for multiple processes of aluminum honeycomb and aluminum alloy, including a dragon type automatic servo moving beam 8, peripheral auxiliary devices, an automatic servo moving platform 9 for transporting a processed workpiece, and the above-mentioned rapid welding device d for multiple processes of aluminum honeycomb and aluminum alloy, wherein the dragon type automatic servo moving beam 8 is fixedly mounted on the second mounting position 5 of the mounting rack, and the automatic servo moving platform 9 is disposed below the rapid welding device for multiple processes of aluminum honeycomb and aluminum alloy.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a be used for many technology quick welding sets of honeycomb aluminium and aluminum alloy, include single laser welding module, its characterized in that still includes the mounting bracket and can cooperate single laser welding module welded supplementary welding unit, the mounting bracket has two at least installation positions and supplies mounting bracket fixed mounting is in the second installation position of peripheral hardware, single laser welding module is through switching structure can dismantle and vertical installation wherein on the installation position, supplementary welding unit through second switching structure demountable installation in addition on the installation position.
2. 2. The device for multi-process quick welding of cellular aluminum and aluminum alloy according to claim 1, wherein the auxiliary welding unit comprises a single argon arc welding module, the second switching structure comprises an argon arc welding adapter, and the single argon arc welding module is detachably mounted on installation positions of the installation position through the argon arc welding adapter.
3. 3. The device for multi-process quick welding of honeycomb aluminum and aluminum alloy according to claim 2, wherein the auxiliary welding unit further comprises a laser filler wire welding module, the second switching structure comprises filler wire adapters, and the laser filler wire welding module is detachably mounted on installation positions of the through the filler wire adapters.
4. 4. The device as claimed in claim 3, wherein the number of the th installation positions is three, the single laser welding module is detachably and vertically installed on th installation positions through the th switching structure, the single argon arc welding module is detachably installed on another th installation positions through the argon arc welding switching piece, and the laser filler wire welding module is detachably installed on the rest th installation positions through the filler wire switching piece.
5. 5. The device for rapidly welding the honeycomb aluminum and the aluminum alloy in multiple processes as claimed in claim 3, further comprising two adjusting mechanisms for respectively driving the single argon arc welding module and the laser filler wire welding module to be finely adjusted in three XYZ directions, wherein the argon arc welding adaptor comprises a connecting plate, the single argon arc welding module is mounted on the connecting plate through adjusting mechanisms, the connecting plate is detachably mounted on of the mounting positions, and the laser filler wire welding module is mounted on another of the mounting positions through another adjusting mechanisms.
6. 6. The apparatus of claim 5, wherein each of the adjusting mechanisms comprises an X-axis stroke adjusting structure for driving the module to move in the X direction, a Y-axis stroke adjusting structure for driving the module to move in the Y direction, and a Z-axis stroke adjusting structure for driving the module to move in the Z direction, the Z-axis stroke adjusting structure is vertically connected to the Y-axis stroke adjusting structure side, the X-axis stroke adjusting structure is vertically connected to the Z-axis stroke adjusting structure side, the Y-axis stroke adjusting structure of the single argon arc welding module is horizontally arranged on the connecting plate, the single argon arc welding module is installed on the X-axis stroke adjusting structure of the single argon arc welding module, the Y-axis stroke adjusting structure of the laser filler wire welding module is installed on of the mounting positions, and the laser filler wire welding module is installed on the X-axis stroke adjusting structure of the laser filler wire welding module.
7. 7. The device as claimed in claim 6, further comprising two rotation structures for driving the single argon arc welding module and the laser filler wire welding module to rotate respectively, wherein the rotation structure of the single argon arc welding module is mounted on the X-axis stroke adjusting structure of the single argon arc welding module, the direction of the rotation axis of the rotation structure of the single argon arc welding module is equal to the driving direction of the Y-axis stroke adjusting structure of the single argon arc welding module, the rotation structure of the laser filler wire welding module is mounted on the X-axis stroke adjusting structure of the laser filler wire welding module, and the rotation axis of the rotation structure of the laser filler wire welding module is equal to the driving direction of the Z-axis stroke adjusting structure of the laser filler wire welding module.
8. 8. The multi-process rapid welding device for honeycomb aluminum and aluminum alloy according to claim 6, characterized in that: still including being used for ordering about respectively single argon arc welding module with laser is filled a welding module and is wound two rotatory second revolution mechanic of self axis, single argon arc welding module second revolution mechanic is installed single argon arc welding module X axle stroke adjustment is structural, laser is filled a welding module second revolution mechanic is installed laser is filled a welding module X axle stroke adjustment is structural.
9. 9. The multi-process quick welding device for the honeycomb aluminum and the aluminum alloy as claimed in claim 1, wherein the mounting frame is provided with two mounting surfaces, the two th mounting positions are respectively positioned in the two mounting surfaces, and the two mounting surfaces are adjacently arranged.
10. 10, A system for multi-process quick welding of honeycomb aluminum and aluminum alloy, including dragon type automatic servo moving beam, peripheral auxiliary equipment and the automatic servo moving platform for transporting the processing work piece, wherein also include the device for multi-process quick welding of honeycomb aluminum and aluminum alloy of claim 1-9 any , the said dragon type automatic servo moving beam is fixed on the second mounting position of the said mounting bracket, the said automatic servo moving platform locates the said below used for multi-process quick welding of honeycomb aluminum and aluminum alloy.

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