CN110587314A - Jointed board welding platform - Google Patents

Abstract

The invention provides a jointed board welding platform and relates to the field of jointed board welding. The jointed board welding platform comprises a first rack, a welding mechanism, an edge milling mechanism and a second rack arranged in parallel with the first rack, clamping structures used for positioning and installing steel plates are respectively arranged on the first rack and the second rack, and a milling and welding channel is reserved between the first rack and the second rack; the welding mechanism and the edge milling mechanism are respectively movably arranged on one side of the first machine frame corresponding to the milling and welding channel, and the moving directions of the welding mechanism and the edge milling mechanism extend along the length direction of the milling and welding channel; the second frame is assembled with the first frame in a relative translation mode, and the second frame extends along the horizontal direction perpendicular to the milling and welding channel relative to the translation direction of the first frame. In the milling and welding process, the steel plate does not need to be transferred from the edge milling station to the welding station, the adjustment of the joint distance after the edge milling is realized through the translational motion of the second rack, the step of clamping the steel plate by secondary positioning is avoided, and the whole jointed plate welding operation is more convenient.

Description

Jointed board welding platform

Technical Field

The invention relates to the technical field of jointed board welding, in particular to a jointed board welding platform.

Background

The plate splicing welding is a common machining step in industrial manufacturing, and two steel plates are spliced and welded to form a whole steel plate so as to meet production and use requirements.

If the Chinese utility model patent with the granted bulletin number of CN202106131U and the granted bulletin date of 2012.01.11 discloses a flat plate butt welding experiment platform, and specifically discloses that the experiment platform comprises a base and a frame body arranged on the base, wherein a milling mechanism is arranged on one side of the frame body, a welding mechanism is arranged on the other side of the frame body, a first pressing plate is arranged above the middle part of the base, a second pressing plate is arranged above the base on one side of the welding mechanism, a first base plate is arranged under the first pressing plate, a second base plate is arranged under the second pressing plate, and a welding flux base plate is arranged below a gap between the first pressing plate and the second pressing plate; and the base is also provided with a hydraulic mechanism, and the hydraulic mechanism is respectively connected with the first pressing plate, the second pressing plate and the welding flux backing plate.

During milling, the first pressing plate is lifted through the first oil cylinder and the second oil cylinder, the cut steel plate is placed between the first pressing plate and the first base plate on one side of the milling mechanism, the first pressing plate falls down to press the steel plate, the milling head is adjusted, and then the milling machine works to drive the milling head to mill the steel plate. After the grooves are milled on the two steel plates, the steel plates are taken out and are ready to be placed between a second pressing plate and a second base plate on one side of the welding mechanism for welding.

Although the flat plate butt welding experiment platform in the prior art can realize the jointed plate welding of the steel plates, the edge milling step and the welding step are respectively completed on two sides of the frame body, the milled steel plates need to be manually taken out and then put into the clamping mechanism on one side of the welding mechanism after edge milling, and the welding step can be performed after the milled steel plates are positioned and spliced.

In conclusion, when the flat plate butt welding experiment platform in the prior art is used, the steel plate needs to be transferred from the edge milling station to the welding station, the step of secondary positioning and clamping of the steel plate is complicated, and the welding operation of jointed plates is complex.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a jointed board welding platform, so as to solve the problems that when a welding platform in the prior art is used, a steel plate needs to be transferred from an edge milling station to a welding station, the steps of secondary positioning and clamping the steel plate are complicated, and the jointed board welding operation is complicated.

The technical scheme of the jointed board welding platform is as follows:

the jointed board welding platform comprises a first rack, a welding mechanism, an edge milling mechanism and a second rack arranged in parallel with the first rack, wherein clamping structures for positioning and mounting steel plates are respectively arranged on the first rack and the second rack, and a milling and welding channel is reserved between the first rack and the second rack;

the welding mechanism and the edge milling mechanism are respectively movably arranged on one side of the first machine frame corresponding to the milling and welding channel, and the moving directions of the welding mechanism and the edge milling mechanism extend along the length direction of the milling and welding channel; the second frame is assembled with the first frame in a relative translation mode, and the second frame extends along the horizontal direction perpendicular to the milling and welding channel relative to the translation direction of the first frame.

Has the advantages that: the two steel plates are correspondingly clamped on the first rack and the second rack through the clamping structure, the welding edges of the two steel plates correspond to the milling and welding channel, the edge milling mechanism translates in the milling and welding channel to mill the edges of the two steel plates, after the milling and welding are finished, the second rack is controlled to move in the horizontal direction perpendicular to the milling and welding channel, the joint distance between the two steel plates is adjusted until the welding set distance is stopped, the welding mechanism is started to translate in the milling and welding channel to weld the edges of the two steel plates, and the whole jointed plate welding process is completed. In the milling and welding process, the steel plate does not need to be transferred from the edge milling station to the welding station, the adjustment of the joint distance after the edge milling is realized through the translational motion of the second rack, the step of clamping the steel plate by secondary positioning is avoided, and the whole jointed plate welding operation is more convenient.

Furthermore, the welding mechanism is arranged at the upper position of one side of the first machine frame corresponding to the milling and welding channel, and the edge milling mechanism is arranged at the lower position of one side of the first machine frame corresponding to the milling and welding channel.

Furthermore, a first transverse moving mechanism is arranged on the upper portion of the first rack and comprises a first transverse moving guide rail and a first moving seat movably assembled with the first transverse moving guide rail, the first transverse moving guide rail is parallel to the length extending direction of the milling and welding channel and is fixed on the first rack, and the welding mechanism is installed on the first moving seat.

Furthermore, welding mechanism is including installing first elevating system and the welding host computer on first removal seat, first elevating system with welding host computer lift drive is connected.

Furthermore, the welding host machine is one of a laser generator, an electric arc welding machine, a submerged arc welding machine, an argon arc welding machine, a carbon dioxide gas shielded welding machine and a plasma welding machine.

Furthermore, a second transverse moving mechanism is arranged at the lower part of the first rack and comprises a second transverse moving guide rail and a second moving seat movably assembled with the second transverse moving guide rail, and the second transverse moving guide rail is parallel to the length extending direction of the milling and welding channel and is fixed on the first rack.

Furthermore, the edge milling mechanism comprises a second lifting mechanism and an edge milling host machine, wherein the second lifting mechanism is installed on the second movable seat, and the second lifting mechanism is connected with the edge milling host machine in a lifting driving mode.

Furthermore, makeup welded platform still includes the base, be equipped with vertical horizontal guide rail on the base, the second frame removes the assembly and is in on the vertical horizontal guide rail, just the base with install between the second frame and indulge actuating mechanism that moves.

Furthermore, the first frame comprises a first top frame and a first bottom frame which are arranged at an upper interval and a lower interval, an accommodating space for placing a steel plate is arranged between the first top frame and the first bottom frame, and the clamping structure is arranged on the first top frame and/or the first bottom frame.

Further, the upside of chassis is equipped with the support mesa that is used for supporting the steel sheet, the hole site has been seted up on the support mesa, the chassis corresponds hole site department and is equipped with the support structure that rolls, the support structure that rolls includes gyro wheel, gyro wheel seat and lift drive structure, the gyro wheel rotates and installs and rises support steel sheet or descend to above the upper end of lift drive structure and retrieve below the support mesa.

Drawings

Fig. 1 is a left side view schematically illustrating a jointed board welding platform according to embodiment 1 of the present invention;

fig. 2 is a front view of the first frame, the welding mechanism and the edge milling mechanism in fig. 1.

In the figure: 1-a first rack, 10-a first top rack, 101-a first traverse guide rail, 11-a first bottom rack, 110-a second traverse guide rail, 111-a second transverse rack, 112-a hole site, 2-a second rack, 20-a second top rack, 21-a second bottom rack, 210-a longitudinal slide block, 211-a longitudinal movement driving motor, 22-a base, 220-a longitudinal horizontal guide rail, 221-a longitudinal rack, 3-a welding mechanism, 30-a laser generator and 31-a wire feeder, 32-a first moving seat, 33-a first lifting motor, 34-a first lifting seat, 35-a first transverse moving driving motor, 4-an edge milling mechanism, 40-an edge milling motor, 41-a milling cutter disc, 42-a second moving seat, 43-a milling cutter shaft, 44-a second lifting seat, 45-a second transverse moving driving motor, 5-a clamping structure, 50-a swing arm, 51-a pressing plate, 52-a telescopic driving structure, 6-a rolling supporting structure and 7-a blanking hopper.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In embodiment 1 of the jointed board welding platform of the present invention, as shown in fig. 1 and 2, the jointed board welding platform includes a first frame 1, a second frame 2 arranged in parallel with the first frame 1, a welding mechanism 3, and an edge milling mechanism 4, wherein the first frame 1 and the second frame 2 are respectively provided with a clamping structure 5 for positioning and installing a steel plate, and a milling and welding channel is reserved between the first frame 1 and the second frame 2. In the present embodiment, the lengths of the first frame 1 and the second frame 2 extend horizontally and transversely, and the mill welding passage between the first frame 1 and the second frame 2 also extends horizontally and transversely.

First frame 1 is equipped with the accommodation space that supplies the steel sheet to place including first roof-rack 10 and the first chassis 11 of upper and lower interval arrangement between first roof-rack 10 and the first chassis 11, is equipped with the pillar between first roof-rack 10 and the first chassis 11 with the first roof-rack 10 of stable support. In this embodiment, the first chassis 11 is fixed to the floor of the plant, and the entire first frame 1 is kept stationary with respect to the floor. Correspondingly, the second frame 2 is the same as the first frame 1 in structure, the second frame 2 comprises a second top frame 20 and a second bottom frame 21 which are arranged at an upper interval and a lower interval, an accommodating space for placing a steel plate is arranged between the second top frame 20 and the second bottom frame 21, and a support column is arranged between the second top frame 20 and the second bottom frame 21 to stably support the second top frame 20. When the makeup welding, with two steel sheets respectively location installation in the accommodation space of first frame 1 and the accommodation space of second frame 2, make the edge of two steel sheets hang and extend to and mill in the welding passageway to supply edge milling mechanism 4 to mill limit processing and welding mechanism 3 to carry out welding process.

Different from the first frame 1, the bottom of the second frame 2 is provided with a base 22, the second frame 2 is assembled on the base 22 in a horizontal longitudinal moving mode, the second frame 2 extends along the horizontal direction perpendicular to the milling and welding channel relative to the translation direction of the first frame 1, and the second frame 2 can be translated longitudinally to adjust the relative position with the first frame 1. Because the size of the steel plate after edge milling treatment changes, the seam distance between the steel plate clamped on the first frame 1 and the steel plate clamped on the second frame 2 changes, and in order to avoid overlarge seam distance between the two steel plates, the seam distance between the two steel plates is adjusted by translating the second frame 2 so as to meet the welding operation requirement. In this embodiment, the base 22 is provided with a longitudinal horizontal guide rail 220 and a longitudinal rack 221 extending horizontally and longitudinally, the lower portion of the second chassis 21 is provided with a longitudinal slider 210 and a longitudinal driving motor 211, a main shaft of the longitudinal driving motor 211 is provided with a gear, the gear is engaged with the longitudinal rack 221, the longitudinal slider 210 is guided and matched with the longitudinal horizontal guide rail 220, and the longitudinal driving motor 211 operates to drive the whole second frame 2 to move horizontally and longitudinally, so as to adjust the joint distance between the two steel plates. The longitudinal movement driving motor 211, the gear, and the longitudinal rack 221 constitute a longitudinal movement driving mechanism.

The arrangement form of the clamping structure 5 on the first frame 1 and the second frame 2 is the same, take the clamping structure 5 on the first frame 1 as an example, the clamping structure 5 has a plurality of along the length extending direction interval arrangement of the first frame 1, a plurality of clamping structures 5 set up the downside at the first roof-rack 10, the clamping structure 5 includes swing arm 50, pressing plate 51 and telescopic driving structure 52, swing arm 50 articulates the downside at the first roof-rack 10, pressing plate 51 articulates the free end at swing arm 50, telescopic driving structure 52 is connected between swing arm 50 and first roof-rack 10, the swing of swing arm 50 is driven and pressing plate 51 is compressed tightly on the face of steel sheet through the telescopic action of telescopic driving structure 52. In this embodiment, the telescopic driving structure 52 is a hydraulic cylinder, a cylinder body of the hydraulic cylinder is fixed on the first top frame 10, and a top rod of the hydraulic cylinder extends downwards to drive the swing arm 50 and the pressing plate 51 to press the steel plate. In other embodiments, in order to meet the actual use requirement, the telescopic driving structure can also be an air cylinder or an electric push rod and the like.

The first chassis 11 is correspondingly arranged at the lower side of the first top frame 10, a supporting table for supporting the steel plate is arranged at the upper side of the first chassis 11, a plurality of hole sites 112 are arranged on the supporting table, and a rolling supporting structure 6 is arranged at the position of the first chassis 11 corresponding to each hole site 112. In this embodiment, the rolling support structure 6 includes a roller, a roller seat and a lifting driving structure sequentially arranged from top to bottom, the roller is rotatably mounted on the roller seat, and the roller seat is mounted at the upper end of the lifting driving structure to lift or retract the roller. Jacking the roller to the height of protruding in the support table face, playing the roll support to the steel sheet through the roller, making things convenient for the steel sheet to carry out translation adjustment position, being favorable to fixing a position the alignment to the steel sheet. After the steel plates are aligned, the lifting driving structure lowers the roller wheels to a height below the supporting platform surface, so that the supporting platform surface can play a role in stably supporting the steel plates and can play a role in positioning and clamping the steel plates by matching with the clamping structure 5. Wherein, the lifting driving structure is a hydraulic oil cylinder. In other embodiments, in order to meet the actual use requirement, the lifting driving structure can also be an air cylinder or an electric push rod and the like.

The welding mechanism 3 and the edge milling mechanism 4 are respectively movably mounted on one side of the first rack 1 corresponding to the milling and welding channel, and the moving directions of the welding mechanism 3 and the edge milling mechanism 4 extend along the length direction of the milling and welding channel. The welding mechanism 3 is arranged at the upper position of one side of the first machine frame 1, which corresponds to the milling and welding channel, and the edge milling mechanism 4 is arranged at the lower position of one side of the first machine frame 1, which corresponds to the milling and welding channel. The upper portion of the first frame 1 is provided with a first traverse mechanism, the first traverse mechanism comprises a first traverse guide rail 101 fixedly mounted on the top of the first top frame 10 and a first moving seat 32 movably assembled with the first traverse guide rail 101, the number of the first traverse guide rails 101 is two, the two first traverse guide rails 101 extend along the horizontal transverse direction, the top of the first top frame 10 is further provided with a first transverse rack, and the first transverse rack is arranged in parallel to the length extension direction of the first traverse guide rails 101.

The welding mechanism 3 comprises a first lifting mechanism arranged on a first moving seat 32, a welding host and a wire feeder 31, wherein two sliding blocks are arranged at the bottom of the first moving seat 32, the sliding blocks are matched with a first transverse moving guide rail 101 in a guiding and moving manner, a first transverse moving driving motor 35 is further arranged on the first moving seat 32, a gear is arranged on a main shaft of the first transverse moving driving motor 35, the gear is meshed and matched with a first transverse rack, the first transverse moving driving motor 35 works to drive the gear to rotate and drive the first moving seat 32 to horizontally and transversely move on the first transverse moving guide rail 101, and the welding mechanism 3 horizontally and transversely moves so as to weld joints of two steel plates.

In order to avoid interference caused by the milling and welding process, a first lifting seat 34 is further assembled on the first moving seat 32 in a vertically moving manner, a first lifting motor 33 is arranged between the first moving seat 32 and the first lifting seat 34, in this embodiment, the first lifting motor 33 is a push rod motor, a housing of the push rod motor is fixed on the first moving seat 32, a push rod of the push rod motor is connected with the first lifting seat 34, and the first lifting seat 34 and the first lifting motor 33 form a first lifting mechanism. In addition, in order to improve the accuracy of the up-and-down movement of the first lifting seat 34, a guide block is arranged on the first moving seat 32, a vertical guide rail is correspondingly arranged on the first lifting seat 34, the guide block is in guiding fit with the vertical guide rail, and the first lifting motor 33 works to drive the first lifting seat 34 to move up and down, so that the height of the laser generator 30 is adjusted, on one hand, the laser generator can move up to avoid the edge milling mechanism 4, and on the other hand, the laser generator can also move down to be adjusted to the optimal welding height.

In this embodiment, the welding host and the wire feeder 31 are fixedly installed on the first lifting seat 34, the welding host is the laser generator 30, the laser beam emitted by the laser generator 30 welds the seam of the steel plate, and the wire feeder 31 is further installed on the first lifting seat 34, the wire feeder 31 feeds the welding wire to the seam position of the steel plate, and the welding wire melts to supplement the filler to the welding pool, thereby ensuring the forming quality of the welding seam. In other embodiments, the laser generator can be replaced by an electric arc welding machine, a submerged arc welding machine, an argon arc welding machine, a carbon dioxide gas shielded welding machine or a plasma welding machine, etc. in order to adapt to the actual needs.

The lower part of the first rack 1 is provided with a second transverse moving mechanism, the second transverse moving mechanism comprises a second transverse moving guide rail 110 fixedly mounted on one side of the first underframe 11 facing the milling and welding channel and a second moving seat 42 movably assembled with the second transverse moving guide rail 110, the second transverse moving guide rail 110 is arranged in two in an up-and-down parallel spaced mode, the two second transverse moving guide rails 110 extend horizontally, a second transverse rack 111 is further arranged on one side of the first underframe 11 facing the milling and welding channel, and the second transverse rack is arranged in parallel to the length extending direction of the second transverse moving guide rail 110.

The edge milling mechanism 4 comprises a second lifting mechanism arranged on a second movable seat 42, an edge milling motor 40, a milling cutter shaft 43 and a milling cutter disc 41, wherein the edge milling motor 40, the milling cutter shaft 43 and the milling cutter disc 41 form an edge milling main machine. The side surface of the second moving seat 42 facing the first chassis 11 is provided with two sliding blocks, the sliding blocks are matched with the second traverse guide rail 110 in a guiding and moving manner, the second moving seat 42 is further provided with a second traverse driving motor 45, a gear is mounted on a main shaft of the second traverse driving motor 45 and is meshed and matched with the second transverse rack 111, the second traverse driving motor 45 works to drive the gear to rotate and drive the second moving seat 42 to horizontally and transversely move on the second traverse guide rail 110, and the edge milling mechanism 4 horizontally and transversely moves so as to mill the joint of the two steel plates.

In order to avoid interference caused by the milling and welding process, a second lifting seat 44 is further assembled on the second moving seat 42 in a vertically moving manner, a second lifting motor is arranged between the second moving seat 42 and the second lifting seat 44, in this embodiment, the second lifting motor is also a push rod motor, a housing of the push rod motor is fixed on the second lifting seat 44, a push rod of the push rod motor is connected with the second moving seat 42, and the second lifting seat 44 and the second lifting motor constitute a second lifting mechanism. In addition, in order to improve the accuracy of the up-and-down movement of the second lifting seat 44, a guide block is arranged on the second lifting seat 44, a corresponding vertical guide rail is arranged on the second moving seat 42, the guide block is in guiding fit with the vertical guide rail, and the second lifting motor works to drive the second lifting seat 44 to move up and down, so that the height of the milling cutter disc 41 is adjusted, on one hand, the second lifting motor can move down to avoid the welding mechanism 3, and on the other hand, the second lifting motor can also move up to be adjusted to the optimal milling height.

In this embodiment, the edge milling motor 40, the milling cutter shaft 43 and the milling cutter disc 41 are mounted on the second lifting seat 44, the edge milling motor 40 and the milling cutter shaft 43 are connected by belt transmission, the rotation axis of the milling cutter shaft 43 extends in the vertical direction, and the milling cutter disc 41 is mounted on the upper portion of the milling cutter shaft 43. The edge milling motor 40 drives the milling cutter shaft 43 and the milling cutter disc 41 to rotate, the milling cutter disc 41 has an inverted-cone-shaped rotating outer contour, and the milling cutter disc 41 horizontally and transversely moves in a milling and welding channel, so that the butt joint edges of the two steel plates are milled, and a groove structure convenient for welding is machined. In addition, still arranged the blanking fill 7 that the opening faced upwards at the downside of milling and welding the passageway, blanking fill 7 is used for accepting the iron fillings that drop when the edge milling handled, in order to reduce the volume size of blanking fill 7, be equipped with nut and slider on blanking fill 7, the downside that is located blanking fill 7 still is equipped with along horizontal extension's lead screw and bottom guide rail, the one end transmission of lead screw is connected with lead screw motor, the nut slides with lead screw thread fit, piece and bottom guide rail direction cooperation, lead screw motor work makes blanking fill 7 carry out the translation along horizontal direction, thereby with edge milling mechanism 4 synchronous motion in order to accept the iron fillings that produce when the edge milling handled completely.

When the steel plate jacking device is used, two steel plates are respectively placed on the supporting table surfaces of the first rack 1 and the second rack 2, the rolling supporting structure 6 is controlled to lift up to jack up the steel plates, and the positions of the two steel plates are manually adjusted under the rolling support of the rollers, so that the seams of the two steel plates are aligned; then controlling the rolling support structure 6 to descend to enable the steel plate to fall on the support table top, and starting the clamping structure 5 to position and tightly press the steel plate on the support table top; and controlling the second rack 2 to horizontally and longitudinally move, adjusting the joint distance between the two steel plates to a preset milling edge distance, stopping, controlling the edge milling mechanism 4 to ascend to the preset milling edge height, starting the edge milling motor 40 and the second transverse moving driving motor 45 to work, and horizontally and transversely moving the milling cutter disc 41 in a milling and welding channel to mill the edges of the two steel plates.

After the milling is finished, the edge milling mechanism 4 is controlled to descend to the height which does not interfere with the welding mechanism 3, then the second rack 2 is controlled to horizontally and longitudinally move again, the joint distance between the two steel plates is adjusted to the welding set distance, the welding mechanism 3 is controlled to descend to the welding set height, the welding host and the first transverse moving driving motor 35 are started to work, the welding host horizontally transversely moves in the milling and welding channel to weld and connect the edges of the two steel plates, and the whole jointed plate welding process is finished. In the milling and welding process, the steel plate does not need to be transferred from the edge milling station to the welding station, the adjustment of the joint distance after the edge milling is realized through the translational motion of the second rack 2, the step of clamping the steel plate by secondary positioning is avoided, and the whole jointed plate welding operation is more convenient.

In other specific embodiments of the jointed board welding platform, in order to adapt to different use requirements, the upper and lower positions of the welding mechanism and the edge milling mechanism can be exchanged, the welding mechanism is arranged on the lower side of the first rack, and the edge milling mechanism is arranged on the upper side of the first rack; in other embodiments, the welding mechanism and the edge milling mechanism can be arranged on the upper side of the first frame, or the welding mechanism and the edge milling mechanism can be arranged on the lower side of the first frame, so that the plate splicing and welding operation can be realized. The welding mechanism and the edge milling mechanism are arranged on the same side of the first frame, so that the welding mechanism and the edge milling mechanism can share one set of transverse guide rail, and the structural complexity of the whole machine is simplified.

In other specific embodiments of the jointed board welding platform, in order to adapt to different use requirements, the clamping structure can be arranged on the first underframe, the lower side of the corresponding first top frame is provided with a stopping table board, and a steel plate is pressed on the stopping table board through the upward pushing action of the clamping structure; or, clamping structures are arranged on the first top frame and the first bottom frame, and the clamping structures on the first top frame and the clamping structures on the first bottom frame are controlled to oppositely move to play a positioning clamping role on the steel plate. Or, the clamping structure is not limited to the form in embodiment 1, and can be simplified into a hydraulic cylinder, an air cylinder or an electric push rod, and the like, and a pressing plate is arranged at the movable end of the hydraulic cylinder, the air cylinder or the electric push rod, and can also play a role in positioning and clamping the steel plate.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (10)

1. A jointed board welding platform comprises a first rack, a welding mechanism and an edge milling mechanism and is characterized by further comprising a second rack arranged in parallel with the first rack, wherein clamping structures used for positioning and installing steel plates are respectively arranged on the first rack and the second rack, and a milling and welding channel is reserved between the first rack and the second rack;

the welding mechanism and the edge milling mechanism are respectively movably arranged on one side of the first machine frame corresponding to the milling and welding channel, and the moving directions of the welding mechanism and the edge milling mechanism extend along the length direction of the milling and welding channel; the second frame is assembled with the first frame in a relative translation mode, and the second frame extends along the horizontal direction perpendicular to the milling and welding channel relative to the translation direction of the first frame.

2. A panel welding platform according to claim 1, wherein said welding mechanism is disposed at an upper location on a side of said first frame corresponding to said weld milling passage, and said edge milling mechanism is disposed at a lower location on a side of said first frame corresponding to said weld milling passage.

3. A jigsaw welding platform according to claim 2, wherein the first frame is provided at an upper portion thereof with a first traverse mechanism, the first traverse mechanism includes a first traverse rail and a first movable base movably mounted to the first traverse rail, the first traverse rail is fixed to the first frame in parallel with a longitudinal extension direction of the mill welding passage, and the welding mechanism is mounted on the first movable base.

4. The jointed board welding platform of claim 3, wherein the welding mechanism comprises a first lifting mechanism mounted on the first movable base and a welding host, and the first lifting mechanism is connected with the welding host in a lifting driving manner.

5. A jointed board welding platform according to claim 4, wherein the welding host machine is one of a laser generator, an electric arc welding machine, a submerged arc welding machine, an argon arc welding machine, a carbon dioxide gas shielded welding machine and a plasma welding machine.

6. A jigsaw welding platform according to claim 2, wherein the lower portion of the first frame is provided with a second traverse mechanism, the second traverse mechanism includes a second traverse rail and a second movable seat movably assembled with the second traverse rail, and the second traverse rail is fixed to the first frame in parallel with the length extension direction of the mill welding passage.

7. A jigsaw welding platform according to claim 6, wherein the edge milling mechanism includes a second lifting mechanism mounted on the second movable base and an edge milling main machine, and the second lifting mechanism is connected with the edge milling main machine in a lifting driving mode.

8. The jointed board welding platform of claim 1, further comprising a base, wherein the base is provided with a longitudinal horizontal guide rail, the second frame is movably assembled on the longitudinal horizontal guide rail, and a longitudinal movement driving mechanism is installed between the base and the second frame.

9. A jigsaw welding platform according to claim 1, wherein the first frame includes a first top frame and a first bottom frame which are arranged at intervals up and down, a containing space for placing a steel plate is arranged between the first top frame and the first bottom frame, and the clamping structure is arranged on the first top frame and/or the first bottom frame.

10. A jointed board welding platform as defined in claim 9, wherein the upper side of the bottom frame is provided with a support platform for supporting the steel plate, the support platform is provided with a hole site, the bottom frame is provided with a rolling support structure corresponding to the hole site, the rolling support structure comprises a roller, a roller seat and a lifting drive structure, and the roller is rotatably mounted at the upper end of the lifting drive structure to lift up the support steel plate or descend to be retracted below the support platform.