CN118143565A - Steel springboard welding equipment with automatic positioning function - Google Patents

Abstract

The invention relates to the technical field of steel springboard welding processing and discloses steel springboard welding equipment with an automatic positioning function, which comprises a processing bed body, wherein two groups of vertical guide rails are symmetrically arranged on two sides of the processing bed body, a first movable seat is slidably arranged on each of the two groups of vertical guide rails, an electric telescopic rod is arranged on each of the first movable seats, a transverse guide rail is arranged on each of the electric telescopic rods, two groups of second movable seats are slidably arranged on each of the transverse guide rails, a welding machine is arranged on each of the two groups of second movable seats, the first movable seats can longitudinally reciprocate by starting the vertical guide rails, the electric telescopic rods can drive the transverse guide rails to reciprocate by starting the electric telescopic rods, and finally the transverse guide rails are started, so that the second movable seats can drive the welding machine to transversely reciprocate, and the welding machine can be automatically positioned at the welding position of a fixed bar and a steel springboard to comprehensively weld.

Description

Steel springboard welding equipment with automatic positioning function

Technical Field

The invention relates to the technical field of welding processing of steel springboards, in particular to steel springboard welding equipment with an automatic positioning function.

Background

The steel springboard is one of construction tools in the building industry, is usually made of steel plates, has certain thickness and strength, is used for building scaffolds, operating tables and the like, and provides a safe working platform for workers. The steel springboard is also called as steel scaffold board, building steel springboard, steel pedal, galvanized steel springboard, hot galvanizing steel pedal, etc., and is widely applied in shipbuilding industry, oil platform, electric power, building industry, etc., and when the steel springboard is applied in building engineering industry, it is multi-purpose to modularly construct the supporting layout for the construction worker to work through, the existing steel springboard is often welded with a reinforcing strip on the back of the steel springboard in order to ensure the structural strength, therefore, a welding device is needed to be used

When the existing steel springboard welding device is used for welding the steel springboard, a worker needs to manually adjust the position of the steel springboard at a processing station according to marks on the steel springboard, the manual adjustment does not have an automatic positioning function, welding errors are easy to occur, and the quality of the welded steel springboard is reduced.

Disclosure of Invention

The invention aims to provide steel springboard welding equipment with an automatic positioning function, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: this steel springboard welding equipment with automatic positioning function includes the processing bed body, be equipped with on the mesa of the processing bed body and put the thing groove, put the both sides symmetry in thing groove and install electronic ejector pin, install the push pedal on the electronic ejector pin, the processing bed body is gone up bilateral symmetry and is installed two sets of vertical guide rail, two sets of slidable mounting has first movable seat on the vertical guide rail, install electric telescopic handle on the first movable seat, install transverse guide on the electric telescopic handle, slidable mounting has two sets of second movable seats on the transverse guide rail, two sets of install the welding machine on the second movable seat, install position detector on the processing bed body, after putting the thing groove, can control the push pedal on the electronic ejector pin and promote the steel springboard and carry out quick travel in putting the thing groove, can remove to processing department with the mark department on the steel springboard, make things convenient for the fixed strip to arrive on the steel springboard simultaneously, can carry out the welding machine through starting vertical guide rail, can carry out the reciprocal welding with the first movable seat of electric telescopic handle, can carry out the reciprocal welding machine and carry out the welding with the first movable seat, can carry out the full-face welding with the first movable seat of reciprocal welding.

Further, the module guide rail is installed at the top of the processing bed body, slidable mounting has the third to remove the seat on the module guide rail, install hydraulic lifter on the third removes the seat, install the holder on the hydraulic lifter, when the mark department of steel springboard mountain removes to processing department, start hydraulic lifter, can let the fixed strip laminating on the hydraulic lifter drive holder to steel springboard, after the holder resets, through starting the module guide rail, can let the third remove the seat and drive the holder and get the material again.

Further, a plurality of roller grooves are formed in the bottom of the storage groove, a plurality of roller grooves are in rolling fit with rotary rollers, and the moving friction force of the steel springboard in the storage groove can be reduced through the rolling action of the rotary rollers in the roller grooves, so that the rapid movement of the steel springboard can be guaranteed.

Further, be provided with blanking drive assembly, blanking one-level utilization subassembly and blanking second grade on the processing bed body and utilize the subassembly, provide the operation drive power for blanking drive assembly through the operation of hydraulic lifter, utilize the subassembly and blanking second grade to utilize the subassembly to provide the operation drive power for blanking one-level through blanking drive assembly.

Further, the blanking driving assembly comprises a fixed rod, an end block, a connecting block, a supporting spring, a linkage plate, a transmission plate, a perforation, a stress plate, an extrusion plate, a slotting, a sliding plate and a push-pull plate;

The processing bed comprises a processing bed body, and is characterized in that two groups of fixing rods are symmetrically arranged around the top of the processing bed body, end blocks are arranged on the tops of the fixing rods, connecting blocks are slidably arranged on the fixing rods, the connecting blocks are connected with the top of the processing bed body through supporting springs, the connecting blocks are connected through linkage plates, two transmission plates are arranged on the tops of the linkage plates, perforation holes are formed in the tops of the processing bed body, the transmission plates penetrate through the perforation holes, stress plates are arranged on opposite sides of the bottoms of the transmission plates, extrusion plates are arranged on clamping pieces, two groups of grooves are symmetrically formed in the tops of the processing bed body, sliding plates are slidably arranged in the grooves, the sliding plates are connected with the linkage plates through the sliding plates, two ends of each sliding plate are respectively hinged with the corresponding sliding plates, when the hydraulic lifter controls the clamping pieces to move downwards in a processing position, the transmission plates can move downwards synchronously through the transmission plates due to the fact that the connecting blocks can slide longitudinally on the fixing rods, the compression plates drive the stress plates to move downwards through the transmission plates, and the compression supporting springs can move downwards through the transmission plates in a first-stage sliding mode by utilizing the sliding plates to move in a linkage assembly.

Further, the blanking first-stage utilization component comprises a slideway, a sliding block, a first linkage rod, a first linkage block, a second linkage rod, a second linkage block and an adsorption pipe;

Two groups of slide ways are symmetrically arranged on the two sides of the top of the processing bed body, the slide ways are internally provided with slide blocks in a sliding manner, the slide blocks are connected with the slide plates through first linkage rods, the first linkage blocks are fixedly arranged on the slide blocks, second linkage rods are arranged on the first linkage blocks, second linkage blocks are arranged on the second linkage rods, adsorption pipes are arranged on the second linkage blocks, when the two slide plates move oppositely, the slide plates can drive the corresponding slide blocks to synchronously move in the slide ways through the first linkage rods, meanwhile, the slide blocks can drive the two adsorption pipes to synchronously move horizontally oppositely through a transmission piece formed by the first linkage blocks, the second linkage rods and the second linkage blocks, the adsorption pipes can be prevented from obstructing the attachment of a fixing strip to a steel springboard at a processing position, and after the clamping pieces move upwards to reset, the steel springboard can move upwards to reset under the driving of a supporting spring, so that the two slide plates can be driven by the push-pull plates to move oppositely, and the two adsorption pipes can be welded to the steel springboard.

Further, the blanking secondary utilization component comprises a driving air bag, a working cylinder, a piston plate, a driven air bag, a connecting air pipe, an exhaust pipe, an air suction pipe, an adsorption head and an electric control air release valve;

The utility model provides a gas purification device, including the processing bed body, the slide is connected through initiative gasbag, install the working cylinder on the processing bed body, slidable mounting has the piston board in the working cylinder, the piston board is connected through driven gasbag with the interior bottom of working cylinder, initiative gasbag is connected through connecting the trachea with driven gasbag, the blast pipe is installed at the top of working cylinder, the top of working cylinder is connected through the breathing pipe with the adsorption tube, install a plurality of adsorption heads on the adsorption tube, install automatically controlled bleeder valve on the output of driven gasbag, when two slides carry out the back of the body and remove, the slide can compress the initiative gasbag in moving the in-process, makes the gas in the initiative gasbag can promote the piston board through connecting the volume longitudinal expansion of driven gasbag and move up in the working cylinder for in the welding waste gas that inhales in the working cylinder can be carried waste gas purification device through the blast pipe, when the welding machine is running, through opening of automatically controlled bleeder valve, the gas in the slave gasbag is discharged through automatically controlled bleeder valve under the gravity effect of adsorption tube, thereby lets the working cylinder pass through and adsorbs the produced waste gas pollution to the environment of work in the adsorption tube welding process.

Furthermore, the connecting air pipe, the exhaust pipe and the air suction pipe are all unidirectional pipelines, the electric control air release valve is electrically connected with the welding machine, and when the welding machine operates, the electric control air release valve is opened.

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

After the steel springboard is placed in the storage groove, the push plate on the electric ejector rod can be controlled through the position detector to push the steel springboard to move rapidly in the storage groove, the mark on the steel springboard can be moved to the processing position, the fixing strip is attached to the steel springboard conveniently, meanwhile, the first moving seat can be longitudinally and reciprocally moved through the starting of the vertical guide rail, the electric telescopic rod can drive the transverse guide rail to move forwards and backwards, the transverse guide rail is finally started, the second moving seat can drive the welding machine to carry out transverse reciprocating movement, and accordingly the welding machine can be automatically positioned to the welding position of the fixing strip and the steel springboard to carry out comprehensive welding.

When the hydraulic lifter controls the clamping piece to move downwards in the machining position, the stress plate is synchronously extruded through the extrusion plate, so that the stress plate drives the linkage plate to move downwards synchronously, the linkage plate can drive the two sliding plates to move back to back through the push-pull plate, and the sliding plates can move in the grooves to provide operation driving force for the first blanking utilization assembly and the second blanking utilization assembly.

After the clamping piece moves upwards to reset, the linkage plate can move upwards to reset under the drive of the supporting spring, so that the linkage plate can drive the two sliding plates to move in opposite directions through the push-pull plate, and further the welding position of the steel springboard can be automatically reset and positioned by the two adsorption tubes.

When the welding machine operates, through the opening of the electric control air release valve, the air in the driven air bag is discharged through the electric control air release valve under the action of the gravity of the piston plate, so that the working cylinder adsorbs the waste gas generated in the welding process through the air suction pipe and the adsorption pipe, and the pollution to the working environment can be avoided.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of a first view angle structure of the present invention;

FIG. 2 is a schematic view of a second view angle structure of the present invention;

FIG. 3 is a schematic view of a first cut-away configuration of the present invention;

FIG. 4 is a second cut-away schematic view of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 6 is an enlarged schematic view of the structure at B in FIG. 2;

fig. 7 is an enlarged schematic view of the structure at C in fig. 4.

In the figure: 1. processing the bed body; 2. a storage groove; 3. an electric ejector rod; 4. a push plate; 5. a vertical guide rail; 6. a first movable seat; 7. an electric telescopic rod; 8. a transverse guide rail; 9. a second movable seat; 10. a welding machine;

11. A module guide rail; 12. a third movable seat; 13. a hydraulic lifter; 14. a clamping member; 15. a position detector; 16. a roller groove; 17. a rotating roller;

18. a blanking driving assembly; 1801. a fixed rod; 1802. an end block; 1803. a connecting block; 1804. a support spring; 1805. a linkage plate; 1806. a drive plate; 1807. perforating; 1808. a force-bearing plate; 1809. an extrusion plate; 1810. slotting; 1811. a slide plate; 1812. a push-pull plate;

19. A blanking primary utilization component; 1901. a slideway; 1902. a slide block; 1903. a first linkage rod; 1904. a first linkage block; 1905. a second linkage rod; 1906. a second linkage block; 1907. an adsorption tube;

20. A blanking secondary utilization component; 2001. an active air bag; 2002. a working cylinder; 2003. a piston plate; 2004. a driven air bag; 2005. connecting an air pipe; 2006. an exhaust pipe; 2007. an air suction pipe; 2008. an adsorption head; 2009. an electric control air release valve.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1 to 5, the present invention provides the following technical solutions: this steel springboard welding equipment with automatic positioning function includes the processing bed body 1, be equipped with on the mesa of the processing bed body 1 and put thing groove 2, put the bilateral symmetry of thing groove 2 and install electronic ejector pin 3, install push pedal 4 on the electronic ejector pin 3, two sets of vertical guide rail 5 are installed to the symmetry of processing bed body 1 upper both sides, two sets of slidable mounting has first movable seat 6 on the vertical guide rail 5, install electric telescopic handle 7 on the first movable seat 6, install transverse guide 8 on the electric telescopic handle 7, slidable mounting has two sets of second movable seat 9 on the transverse guide 8, two sets of install welding machine 10 on the second movable seat 9, install position detector 15 on the processing bed body 1, after the steel springboard is put into and is put thing groove 2, can control push pedal 4 on the electronic ejector pin 3 and promote the steel springboard and carry out the quick travel in putting thing groove 2, can carry out the electric telescopic handle 7 with the mark position of steel springboard on the first movable seat 6 to the vertical guide rail 6, can carry out the welding machine and carry out the reciprocal welding with the first movable seat 8, can carry out the reciprocal welding with the first movable seat 8, and the reciprocal welding machine is carried out the mechanical joint and the first movable seat 8 can carry out the reciprocal welding 8.

The top of the processing bed body 1 is provided with a module guide rail 11, a third movable seat 12 is slidably arranged on the module guide rail 11, a hydraulic lifter 13 is arranged on the third movable seat 12, a clamping piece 14 is arranged on the hydraulic lifter 13, when a mark of a steel springboard mountain moves to a processing place, the hydraulic lifter 13 is started, a fixing strip on the clamping piece 14 can be driven by the hydraulic lifter 13 to be attached to the steel springboard, and after the clamping piece 14 is reset, the clamping piece 14 can be driven by the third movable seat 12 to be taken again through starting the module guide rail 11.

The bottom of the storage tank 2 is provided with a plurality of roller tanks 16, a plurality of roller tanks 16 are internally and rotatably embedded with rotary rollers 17, and the movable friction force of the steel springboard in the storage tank 2 can be reduced through the rolling action of the rotary rollers 17 in the roller tanks 16, so that the rapid movement of the steel springboard can be ensured.

The processing bed body 1 is provided with a blanking driving assembly 18, a blanking first-stage utilization assembly 19 and a blanking second-stage utilization assembly 20, the operation driving force is provided for the blanking driving assembly 18 through the operation of the hydraulic lifter 13, and the operation driving force is provided for the blanking first-stage utilization assembly 19 and the blanking second-stage utilization assembly 20 through the blanking driving assembly 18.

As shown in fig. 1-4 and 6-7, the blanking drive assembly 18 includes a fixed rod 1801, an end block 1802, a connecting block 1803, a support spring 1804, a linkage plate 1805, a drive plate 1806, a perforation 1807, a force plate 1808, a squeeze plate 1809, a slot 1810, a slide plate 1811, and a push-pull plate 1812;

Two groups of fixing rods 1801 are symmetrically installed around the top of the processing bed body 1, two groups of end blocks 1802 are installed on the top of the fixing rods 1801, two groups of connecting blocks 1803 are installed on the fixing rods 1801 in a sliding mode, the connecting blocks 1803 are connected with the top of the processing bed body 1 through supporting springs 1804, the connecting blocks 1803 are connected with the top of the processing bed body 1 through linkage plates 1805, two transmission plates 1806 are installed on the top of the linkage plates 1805, through holes 1807 are formed in the top of the processing bed body 1, the transmission plates 1806 penetrate through the holes 1807, stress plates 1808 are installed on opposite sides of the bottom of the transmission plates 1806, extrusion plates 1809 are installed on clamping pieces 14, two groups of grooves 1810 are symmetrically formed in the top of the processing bed body 1, sliding plates 1811 are slidably installed on the grooves 1810, the sliding plates 1811 are connected with the top of the linkage plates 1805 through the plates 1812, two ends of the sliding plates 1811 are hinged with the plates 1805 respectively, when a lifter 13 is controlled by the clamping pieces, the transmission plates 1803 can move under the linkage plates 1803 to be compressed through the linkage plates 1808, and can be synchronously moved through the linkage plates 1808, and can be compressed by the linkage plates 1808, and can be synchronously moved by the aid of the linkage plates 1808 when the two sides of the linkage plates 1801 are compressed, and the linkage plates 1808 are synchronously moved, and the linkage plates are compressed, and 20 can be synchronously moved by the linkage plates are synchronously by the linkage plates 20.

As shown in fig. 1-4 and fig. 6-7, the blanking stage utilization assembly 19 includes a slide 1901, a slider 1902, a first linkage bar 1903, a first linkage block 1904, a second linkage bar 1905, a second linkage block 1906, and an adsorption tube 1907;

Two groups of slide ways 1901 are symmetrically arranged on the two sides of the top of the processing bed body 1, the two groups of slide ways 1901 are internally and slidably provided with slide blocks 1902, the slide blocks 1902 are connected with a slide plate 1811 through a first linkage rod 1903, a first linkage block 1904 is fixedly arranged on the slide blocks 1902, a second linkage rod 1905 is arranged on the first linkage block 1904, a second linkage block 1906 is arranged on the second linkage rod 1905, adsorption tubes 1907 are arranged on the second linkage block 1906, when the two slide plates 1811 move back to back, the slide plates 1811 can drive the corresponding slide blocks 1902 to synchronously move in the slide ways 1901 through the first linkage rod 1903, meanwhile, a transmission piece formed by the first linkage block 1904, the second linkage rod 1905 and the second linkage block 1906 can drive the two adsorption tubes 1907 to synchronously move back to back, the adsorption tubes 1907 can be prevented from blocking the attachment of the fixed strip to a steel plate in a processing position, and when the two slide plates 1815 are reset to a support plate 1804 to reset, and the two slide plates 1812 can be driven to move back to the two slide plates 1812.

As shown in fig. 1-4, the blanking secondary utilization assembly 20 includes a driving air bag 2001, a working cylinder 2002, a piston plate 2003, a driven air bag 2004, a connecting air pipe 2005, an exhaust pipe 2006, an air suction pipe 2007, an adsorption head 2008 and an electrically controlled air release valve 2009;

The sliding plate 1811 is connected with the slot 1810 through a driving air bag 2001, the working bed body 1 is provided with a working cylinder 2002 in a sliding manner, the working cylinder 2002 is internally provided with a piston plate 2003, the piston plate 2003 is connected with the inner bottom of the working cylinder 2002 through a driven air bag 2004, the driving air bag 2001 is connected with the driven air bag 2004 through a connecting air pipe 2005, the top of the working cylinder 2002 is provided with an exhaust pipe 2006, the top of the working cylinder 2002 is connected with an adsorption pipe 1907 through an air suction pipe 1907, the adsorption pipe 1907 is provided with a plurality of adsorption heads 2008, the output end of the driven air bag 2004 is provided with an electric control air release valve 2009, when the two sliding plates 1811 move back to each other, the sliding plate 1811 can compress the driving air bag 2001 in the moving process, so that gas in the driving air bag 2001 can enter the driven air bag 2004 through the connecting air bag 2005, the volume longitudinal expansion of the driven air bag 2004 can push the piston plate 2003 to move upwards in the working cylinder 2002, so that the sucked welding waste gas in the working cylinder 2002 can be conveyed into a waste gas purifying device through the exhaust pipe 2006, when the welding machine 10 runs through the air suction pipe 1907, and the electric control air release valve 2009 can be prevented from polluting the environment 2007 through the adsorption of the electric control air release valve 2009.

The connecting air pipe 2005, the air exhaust pipe 2006 and the air suction pipe 2007 are all unidirectional pipes, the electrically controlled air release valve 2009 is electrically connected with the welding machine 10, and when the welding machine 10 is operated, the electrically controlled air release valve 2009 is opened.

The working principle of the invention is as follows:

After the steel springboard is placed in the storage tank 2, the push plate 4 on the electric ejector rod 3 can be controlled through the position detector 15 to push the steel springboard to move rapidly in the storage tank 2, the mark on the steel springboard can be moved to the processing position, the fixing strip is attached to the steel springboard conveniently, meanwhile, the first movable seat 6 can be longitudinally moved in a reciprocating mode through the starting of the vertical guide rail 5, the electric telescopic rod 7 can drive the transverse guide rail 8 to move forwards and backwards through the starting of the electric telescopic rod 7, and finally the transverse guide rail 8 is started, the second movable seat 9 can drive the welding machine 10 to move transversely in a reciprocating mode, so that the welding machine 10 can automatically position the welding position of the fixing strip and the steel springboard to carry out comprehensive welding.

When the hydraulic lifter 13 controls the clamping piece 14 to move downwards in the machining position, as the connecting block 1803 can longitudinally slide on the fixed rod 1801, the stress plate 1808 is synchronously extruded through the extrusion plate 1809, the stress plate 1808 can drive the linkage plate 1805 to synchronously move downwards through the transmission plate 1806, the connecting block 1803 compresses the supporting spring 1804, when the linkage plate 1805 moves downwards, the linkage plate 1805 can drive the two sliding plates 1811 to move back to back through the push-pull plate 1812, and the sliding plates 1811 can provide operation driving force for the blanking primary utilization assembly 19 and the blanking secondary utilization assembly 20 by moving in the slots 1810.

When the two sliding plates 1811 move oppositely, the sliding plates 1811 can drive the corresponding sliding blocks 1902 to synchronously move in the sliding ways 1901 through the first linkage rod 1903, meanwhile, the sliding blocks 1902 can drive the two adsorption pipes 1907 to synchronously move horizontally in opposite directions through a transmission piece formed by the first linkage block 1904, the second linkage rod 1905 and the second linkage block 1906 in the moving process, the adsorption pipes 1907 can be prevented from obstructing the attachment of the fixing strips in the processing position and the steel springboard, and after the clamping piece 14 moves upwards and resets, the linkage plate 1805 can move upwards and reset under the driving of the supporting spring 1804, so that the linkage plate 1805 can drive the two sliding plates 1811 to move oppositely through the push-pull plate 1812, and the two adsorption pipes 1907 can be reset and positioned at the welding position of the steel springboard.

When the two sliding plates 1811 move oppositely, the sliding plates 1811 can compress the driving air bag 2001 in the moving process, so that gas in the driving air bag 2001 can enter the driven air bag 2004 through the connecting air pipe 2005, the piston plate 2003 can be pushed to move upwards in the working cylinder 2002 through the volume longitudinal expansion of the driven air bag 2004, welding waste gas sucked in the working cylinder 2002 can be conveyed into the waste gas purifying device through the exhaust pipe 2006, when the welding machine 10 operates, the gas in the driven air bag 2004 is discharged through the electric control air release valve 2009 under the action of gravity of the piston plate 2003, and therefore the working cylinder 2002 can absorb waste gas generated in the welding process through the air suction pipe 2007 and the adsorption pipe 1907, and pollution to the working environment can be avoided.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. Steel springboard welding equipment with automatic positioning function, its characterized in that: the steel springboard welding equipment with the automatic positioning function comprises a machining bed body (1), wherein a table top of the machining bed body (1) is provided with a storage groove (2), electric ejector rods (3) are symmetrically arranged on two sides of the storage groove (2), push plates (4) are arranged on the electric ejector rods (3), two groups of vertical guide rails (5) are symmetrically arranged on two sides of the machining bed body (1), a first movable seat (6) is slidably arranged on the two groups of vertical guide rails (5), an electric telescopic rod (7) is arranged on the first movable seat (6), transverse guide rails (8) are provided with two groups of second movable seats (9) in a sliding mode, a welding machine (10) is arranged on the two groups of second movable seats (9), and a position detector (15) is arranged on the machining bed body (1);

The processing bed body (1) is provided with a blanking driving assembly (18), a blanking primary utilization assembly (19) and a blanking secondary utilization assembly (20), the operation driving force is provided for the blanking driving assembly (18) through the operation of the hydraulic lifter (13), and the operation driving force is provided for the blanking primary utilization assembly (19) and the blanking secondary utilization assembly (20) through the blanking driving assembly (18);

The blanking driving assembly (18) comprises a fixed rod (1801), an end block (1802), a connecting block (1803), a supporting spring (1804), a linkage plate (1805), a transmission plate (1806), a perforation (1807), a stress plate (1808), an extrusion plate (1809), a slot (1810), a sliding plate (1811) and a push-pull plate (1812);

Two groups of fixing rods (1801) are symmetrically arranged on the top of the machining bed body (1) front and back, end blocks (1802) are arranged on the tops of the two groups of fixing rods (1801), connecting blocks (1803) are slidably arranged on the fixing rods (1801), the connecting blocks (1803) are connected with the top of the machining bed body (1) through supporting springs (1804), the connecting blocks (1803) are connected with each other through linkage plates (1805), two transmission plates (1806) are arranged on the tops of the linkage plates (1805), through holes (1807) are formed in the tops of the machining bed body (1), the transmission plates (1806) penetrate through the through holes (1807), stress plates (1808) are arranged on opposite sides of the bottoms of the transmission plates (1806), extrusion plates (1809) are arranged on clamping pieces (14), two groups of grooves (1810) are symmetrically formed in the two sides of the tops of the machining bed body (1), the grooves (1811) are slidably arranged in the sliding plates (1811), and the two ends of each sliding plate 1811 are connected with a sliding plate 1812 through the corresponding sliding plate 1812;

The blanking first-stage utilization assembly (19) comprises a slideway (1901), a sliding block (1902), a first linkage rod (1903), a first linkage block (1904), a second linkage rod (1905), a second linkage block (1906) and an adsorption pipe (1907);

Two groups of slide ways (1901) are symmetrically arranged on two sides of the top of the machining bed body (1), sliding blocks (1902) are slidably arranged on the two groups of slide ways (1901), the sliding blocks (1902) are connected with the sliding plates (1811) through first linkage rods (1903), first linkage blocks (1904) are fixedly arranged on the sliding blocks (1902), second linkage rods (1905) are arranged on the first linkage blocks (1904), second linkage blocks (1906) are arranged on the second linkage rods (1905), and adsorption tubes (1907) are arranged on the second linkage blocks (1906).

2. The steel springboard welding apparatus with automatic positioning function of claim 1, wherein: the machining bed is characterized in that a module guide rail (11) is arranged at the top of the machining bed body (1), a third movable seat (12) is slidably arranged on the module guide rail (11), a hydraulic lifter (13) is arranged on the third movable seat (12), and a clamping piece (14) is arranged on the hydraulic lifter (13).

3. The steel springboard welding apparatus with automatic positioning function of claim 1, wherein: a plurality of roller grooves (16) are formed in the bottom of the storage groove (2), and a rotating roller (17) is embedded in the roller grooves (16) in a rolling way.

4. The steel springboard welding apparatus with automatic positioning function of claim 1, wherein: the blanking secondary utilization assembly (20) comprises a driving air bag (2001), a working cylinder (2002), a piston plate (2003), a driven air bag (2004), a connecting air pipe (2005), an exhaust pipe (2006), an air suction pipe (2007), an adsorption head (2008) and an electric control air release valve (2009);

The sliding plate (1811) is connected with the slot (1810) through a driving air bag (2001), a working cylinder (2002) is mounted on the machining bed body (1), a piston plate (2003) is mounted in the working cylinder (2002) in a sliding mode, the piston plate (2003) is connected with the inner bottom of the working cylinder (2002) through a driven air bag (2004), the driving air bag (2001) is connected with the driven air bag (2004) through a connecting air pipe (2005), an exhaust pipe (2006) is mounted at the top of the working cylinder (2002), the top of the working cylinder (2002) is connected with an adsorption pipe (1907) through an air suction pipe (2007), a plurality of adsorption heads (2008) are mounted on the adsorption pipe (1907), and an electric control bleeder valve (2009) is mounted on the output end of the driven air bag (2004).

5. The steel springboard welding apparatus with automatic positioning function of claim 4, wherein: the connecting air pipe (2005), the exhaust pipe (2006) and the air suction pipe (2007) are all unidirectional pipelines, the electric control air release valve (2009) is electrically connected with the welding machine (10), and when the welding machine (10) operates, the electric control air release valve (2009) is opened.