CN117003133A - Hoisting and welding method for high-strength steel plate conversion truss parts - Google Patents

Abstract

The invention discloses a hoisting welding method for high-strength steel plate conversion truss parts, which is applied to the technical field of building construction.

Description

Hoisting and welding method for high-strength steel plate conversion truss parts

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to a hoisting and welding method for high-strength steel plate conversion truss parts.

Background

In the construction, in order to ensure the welding quality of the high-strength super-thick steel plates, the welding shrinkage deformation of the truss is controlled, the installation accuracy of the conversion truss is ensured, the realization of building functions and safety are extremely important, the truss has the advantages that the rod pieces mainly bear tension or pressure, the material effect can be fully exerted, the material is saved, the structure weight is lightened, and the steel truss, the reinforced concrete truss, the prestressed concrete truss, the wood truss, the steel-wood combined truss and the steel-concrete combined truss are commonly used.

At present, chinese patent with publication number CN113681202B discloses a positioning traction device for aligning and welding a hoisting steel truss and an embedded anchor plate, which comprises a positioning adjusting mechanism and a pair of adsorption supporting components, wherein the adsorption supporting components are detachably adsorbed on the embedded anchor plate, a transmission traction mechanism is arranged between the adsorption supporting components, the positioning adjusting mechanism is arranged on the transmission traction mechanism, an auxiliary positioning mechanism is detachably arranged between the positioning adjusting mechanism and the transmission traction mechanism, a pair of rolling clamping seats for clamping welding points of the steel truss are movably arranged at the bottom of the positioning adjusting mechanism, an infrared positioning laser head is arranged on the front surface of one rolling clamping seat close to the embedded anchor plate, and a pair of buffer components are arranged on the side surface of the positioning adjusting mechanism close to the embedded anchor plate.

The existing high-strength steel plate conversion truss part hoisting and welding method has the following defects when in use:

1. at present, most lifting devices are not provided with automatic walking and limited moving travel, when a worker lifts a heavy steel plate, the worker is difficult to push the lifting devices by virtue of manpower, and the moving travel of the worker is not limited, so that the lifting devices are easy to fall off a welding area, and the work of lifting and welding by the worker is influenced;

2. when high strength steel plate conversion truss spare hoist and mount welding, normally directly place the cushion above with the steel sheet, when carrying out truss spare weldment work, normally with the mid-air of part hoist and mount, then through the hoist and mount height of control lifting device to weld in the convenience, but the wobbling condition appears in the part easily at welded in-process, influences welding quality and welding efficiency.

Disclosure of Invention

The invention aims at the existing hoisting and welding method for the high-strength steel plate conversion truss parts, and has the advantages that the hoisting structure is driven to move by the electric moving wheels, so that the hoisting structure is convenient to hoist, meanwhile, the auxiliary welding structure can lift welding parts, so that the stable welding work of workers is facilitated, the welding efficiency is higher, and meanwhile, the auxiliary welding structure drives the welding finished product to move, so that the workers can conveniently carry out the next work.

The technical aim of the invention is realized by the following technical scheme: the utility model provides a high strength steel plate conversion truss spare hoist and mount welding equipment, includes rack, hoisting structure and auxiliary welding structure, the top bolt of rack has the dog, the bottom bolt of hoisting structure has the support frame, the bottom bolt of support frame has electronic movable wheel, electronic movable wheel's surface and the inner wall sliding connection of rack, auxiliary welding structure's bottom bolt has electronic walking wheel, auxiliary welding structure's top has placed steel sheet subassembly, auxiliary welding structure's top has placed the spare part subassembly.

By adopting the technical scheme, through setting up rack, hoisting structure, auxiliary welding structure, the dog, the support frame, electronic removal wheel, electronic walking wheel, steel sheet subassembly and spare part subassembly, move to the welding position through electronic walking wheel during the use, the hoisting structure is moved at the inner wall of rack through the electronic removal wheel of support frame bottom afterwards, make hoisting structure hoist steel sheet, export through electronic removal wheel, make electronic removal wheel drive the support frame and remove, the support frame removes the time can drive hoisting structure and remove to auxiliary welding structure's top, steel sheet subassembly hoisting's work has been accomplished, when the steel sheet hoist and mount to auxiliary welding structure top, then adjust work through auxiliary welding structure, the staff of being convenient for hoist and mount spare part subassembly to auxiliary welding structure's top, output through auxiliary welding structure, make auxiliary welding structure carry out auxiliary lifting's work to spare part subassembly, the staff of being convenient for carries out stable welded work, the condition that the spare part subassembly appears oneself and rocks when hoist and mount welding, the work of the stable welding of spare part subassembly has been accomplished.

The invention is further provided with: the hoisting structure comprises a beam assembly, a reinforcing assembly, a crane mechanism and a support assembly, wherein the bottom of the support assembly is bolted to the top of the support frame, the top of the support assembly is bolted to the bottom of the beam assembly, the top of the beam assembly is bolted to the bottom of the reinforcing assembly, one side, close to the support assembly, of the reinforcing assembly is bolted to the support assembly, and the surface of the crane mechanism is in sliding connection with the inner wall of the beam assembly.

Adopt above-mentioned technical scheme, through setting up beam assembly, reinforcing assembly, loop wheel machine mechanism and bracket component, the position through bracket component and support frame is fixed during the use, when need hoist and mount steel sheet assembly and spare subassembly, the support frame moves through electronic movable wheel, the support frame of being convenient for drives the bracket component and carries out to the hoist and mount position, output through the loop wheel machine mechanism afterwards, the work of hoist and mount is carried out to the loop wheel machine mechanism of being convenient for, position through reinforcing assembly and beam assembly is fixed, reinforcing assembly and bracket component's position is fixed, the condition that the loop wheel machine mechanism appears rocking when hoist and mount can be avoided, the stability of loop wheel machine mechanism when hoist and mount is increased.

The invention is further provided with: the crane mechanism comprises a hoisting motor assembly, a lifting rope and a lifting hook, wherein the inner wall of the lifting hook is movably connected with the surface of the lifting rope, the lifting rope is wound on the inner wall of the hoisting motor assembly, and the surface of the hoisting motor assembly is slidably connected with the inner wall of the beam assembly.

By adopting the technical scheme, through setting up hoist and mount motor assembly, lifting rope and lifting hook, export through hoist and mount motor assembly during the use, make the lifting hook rise or work that descends through the lifting rope, make the lifting hook hoist and mount steel sheet subassembly and spare subassembly to welding position in proper order, the staff of being convenient for carries out follow-up welded work.

The invention is further provided with: the support assembly comprises a fixed block and a supporting block, wherein the top of the fixed block is bolted with the bottom of the beam assembly, the bottom of the fixed block is bolted with the top of the supporting block, the bottom of the supporting block is bolted with the top of the supporting frame, and one side of the reinforcing assembly, which is close to the supporting block, is bolted with the supporting block.

By adopting the technical scheme, through setting up fixed block and supporting shoe, fix through the position of supporting shoe with the support frame during the use, the position of supporting shoe and fixed block is fixed, and the fixed block is fixed with beam assembly's position, and the beam assembly of being convenient for carries out stable support's work is fixed through the position of strengthening component and supporting shoe, can avoid the supporting shoe in use to appear rocking the condition.

The invention is further provided with: the reinforcing assembly comprises a reinforcing block and a reinforcing plate, wherein the bottom of the reinforcing block is bolted with the top of the beam assembly, the bottom of the reinforcing block is bolted with the top of the reinforcing plate, and one side, close to the supporting block, of the reinforcing plate is bolted with the supporting block.

Adopt above-mentioned technical scheme, through setting up boss and reinforcing plate, fix through boss and beam assembly's position during the use, the boss is fixed with the position of reinforcing plate, and the reinforcing plate is fixed with the position of supporting shoe, is convenient for increase the fixity to supporting shoe and beam assembly, avoids the supporting shoe to appear shaking the condition at will in the support.

The invention is further provided with: the auxiliary welding structure comprises an adjusting mechanism, a displacement mechanism, a placement component and a sliding component, wherein one side of the placement component, which is close to the sliding component, is bolted with the sliding component, the bottom of the displacement mechanism is bolted with the top of the sliding component, the bottom of the sliding component is bolted with the top of the electric walking wheel, the inner wall of the adjusting mechanism is in sliding connection with the surface of the displacement mechanism, the component is placed at the top of the adjusting mechanism, and the steel plate component is placed at the top of the placement component.

Adopt above-mentioned technical scheme, through setting up adjustment mechanism, displacement mechanism, place subassembly and slip subassembly, the position through slip subassembly and electric road wheel is fixed during the use, when carrying out welding work, slip subassembly drives and places the subassembly and remove to suitable position through electric road wheel, then export through displacement mechanism, make displacement mechanism drive adjustment mechanism move, make adjustment mechanism dodge the work, be convenient for the lifting hook place the steel sheet subassembly and place the top of subassembly, then drive adjustment mechanism through displacement mechanism and remove to suitable position, the lifting hook is convenient for place adjustment mechanism's top with the subassembly, then carry out elevating system through adjustment mechanism, the adjustment mechanism of being convenient for drives the subassembly and carry out stable welded work.

The invention is further provided with: the displacement mechanism comprises a sliding rod, a threaded rod, a mounting plate, an output assembly and a fixing plate, wherein the bottom of the fixing plate is bolted with the top of the sliding assembly, the top of the fixing plate is bolted with the bottom of the mounting plate, the output end of the output assembly is bolted with the front side of the threaded rod, the surface of the threaded rod is rotationally connected with the inner wall of the mounting plate, the surface of the sliding rod is bolted with the inner wall of the mounting plate, the inner wall of the adjusting mechanism is in sliding connection with the surface of the sliding rod, and the inner wall of the adjusting mechanism is in threaded connection with the surface of the threaded rod.

Adopt above-mentioned technical scheme, through setting up slide bar, the threaded rod, the mounting panel, output module and fixed plate, the position through fixed plate and slip subassembly during the use is fixed, output through slip subassembly, be convenient for drive the fixed plate and remove the work, be applicable to different specification steel sheet subassembly and spare part subassembly welded work, output work through output module, make output module drive the threaded rod rotate at the inner wall of mounting panel, be convenient for drive adjustment mechanism and slide on the surface of slide bar, be convenient for carry out auxiliary welding's work.

The invention is further provided with: the adjusting mechanism comprises a supporting component, a lifting component and a sliding block, wherein the top of the sliding block is bolted with the bottom of the lifting component, the top of the lifting component is bolted with the bottom of the supporting component, the inner wall of the sliding block is in sliding connection with the surface of the sliding rod, the inner wall of the sliding block is in threaded connection with the surface of the threaded rod, and the bulk component is placed at the top of the supporting component.

Adopt above-mentioned technical scheme, through setting up supporting component, lifting unit and slider, fix through slider and lifting unit's position during the use, lifting unit fixes with supporting component's position, when the threaded rod rotates at the slider inner wall, can drive the slider and move on the surface of slide bar, the slider of being convenient for drives supporting component and removes the work of supporting, is convenient for be applicable to different specification spare subassembly welded work.

The invention is further provided with: the support assembly comprises a support plate, an electric telescopic rod and a base, wherein the bottom of the base is bolted with the top of the lifting assembly, one side of the base, which is close to the electric telescopic rod, is bolted with the electric telescopic rod, one side of the electric telescopic rod, which is close to the support plate, is bolted with the support plate, and the spare part assembly is placed at the top of the support plate.

Adopt above-mentioned technical scheme, through setting up backup pad, electric telescopic handle and base, fix through the position of base with lifting unit during the use, the position of base and electric telescopic handle is fixed, and electric telescopic handle is fixed with the position of backup pad, and the backup pad of being convenient for carries out flexible work through electric telescopic handle, is applicable to the spare part subassembly of different length.

A hoisting and welding method for high-strength steel plate conversion truss parts comprises the following steps:

s1, an auxiliary welding structure moves to a welding position through an electric travelling wheel, then a hoisting structure moves on the inner wall of a placing frame through an electric moving wheel at the bottom of a supporting frame, so that the hoisting structure hoistes a steel plate, then the steel plate is output through the electric moving wheel, the electric moving wheel drives the supporting frame to move, the supporting frame moves and drives the hoisting structure to move to the top of the auxiliary welding structure, and the hoisting of the steel plate assembly is completed;

s2, when the steel plate assembly is hoisted to the top of the auxiliary welding structure, the work is adjusted through the auxiliary welding structure, workers are convenient to hoist the assembly to the top of the auxiliary welding structure, the auxiliary welding structure outputs the assembly, the auxiliary welding structure is used for carrying out auxiliary lifting on the assembly, the workers are convenient to carry out stable welding, the assembly is prevented from shaking during hoisting welding, and stable welding of the assembly is completed.

In summary, the invention has the following beneficial effects:

1. through setting up the hoisting structure, fix through the position of support frame and electronic removal wheel during the use, auxiliary welding structure moves to the welding position through electronic walking wheel, then the hoisting structure moves at the inner wall of rack through the electronic removal wheel of support frame bottom, make the hoisting structure hoist the steel sheet, then export through electronic removal wheel, make electronic removal wheel drive the support frame and remove, can drive the hoisting structure and remove to auxiliary welding structure's top when the support frame removes, the work of steel sheet hoist has been accomplished;

2. through setting up supplementary welded structure, fix through the position of sliding component with electric road wheel during the use, when carrying out welding work, sliding component drives and places the subassembly and remove to suitable position through electric road wheel, then export through displacement mechanism, make displacement mechanism drive adjustment mechanism and move about, make adjustment mechanism dodge the work, be convenient for the lifting hook place the steel sheet subassembly and place the top of subassembly, then drive adjustment mechanism through displacement mechanism and remove to suitable position, be convenient for the lifting hook place adjustment mechanism's top with the spare part subassembly, then carry out elevating system through adjustment mechanism, be convenient for adjustment mechanism drives the spare part subassembly and carries out stable welded work.

Drawings

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

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

FIG. 3 is a schematic view of a hoisting structure of the present invention;

FIG. 4 is a schematic illustration of the crane mechanism of the present invention;

FIG. 5 is a schematic view of the bracket assembly of the present invention;

FIG. 6 is a schematic view of the auxiliary welding structure of the present invention;

FIG. 7 is a schematic view of a displacement mechanism of the present invention;

FIG. 8 is a schematic view of the adjusting mechanism of the present invention;

FIG. 9 is a schematic view of the support assembly structure of the present invention;

fig. 10 is a flow chart of a method for hoisting and welding high-strength steel plate conversion truss parts.

Reference numerals: 1. a placing rack; 2. a hoisting structure; 201. a beam assembly; 202. a reinforcement assembly; 2021. a reinforcing block; 2022. a reinforcing plate; 203. a crane mechanism; 2031. hoisting the motor assembly; 2032. a hanging rope; 2033. a lifting hook; 204. a bracket assembly; 2041. a fixed block; 2042. a support block; 3. an auxiliary welding structure; 301. an adjusting mechanism; 3011. a support assembly; 30111. a support plate; 30112. an electric telescopic rod; 30113. a base; 3012. a lifting assembly; 3013. a slide block; 302. a displacement mechanism; 3021. a slide bar; 3022. a threaded rod; 3023. a mounting plate; 3024. an output assembly; 3025. a fixing plate; 303. placing the assembly; 304. a sliding assembly; 4. a stop block; 5. a support frame; 6. an electric moving wheel; 7. an electric walking wheel; 8. a steel plate assembly; 9. a bulk component.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to fig. 1-9, a high-strength steel plate conversion truss component hoisting welding device comprises a placing frame 1, a hoisting structure 2 and an auxiliary welding structure 3, wherein a stop block 4 is bolted to the top of the placing frame 1, a supporting frame 5 is bolted to the bottom of the hoisting structure 2, an electric moving wheel 6 is bolted to the bottom of the supporting frame 5, the surface of the electric moving wheel 6 is in sliding connection with the inner wall of the placing frame 1, an electric walking wheel 7 is bolted to the bottom of the auxiliary welding structure 3, a steel plate assembly 8 is placed on the top of the auxiliary welding structure 3, a component assembly 9 is placed on the top of the auxiliary welding structure 3, the placing frame 1, the hoisting structure 2, the auxiliary welding structure 3, the stop block 4, the supporting frame 5, the electric moving wheel 6, the electric walking wheel 7, the steel plate assembly 8 and the component assembly 9 are arranged, when in use, the auxiliary welding structure 3 moves to a welding position through the electric walking wheel 7, then the hoisting structure 2 moves on the inner wall of the placing frame 1 through the electric moving wheel 6 at the bottom of the supporting frame 5, so that the hoisting structure 2 lifts the steel plate, then the electric moving wheel 6 outputs the steel plate, the electric moving wheel 6 drives the supporting frame 5 to move, the supporting frame 5 moves and simultaneously drives the hoisting structure 2 to move to the top of the auxiliary welding structure 3, the hoisting work of the steel plate assembly 8 is completed, when the steel plate is hoisted to the top of the auxiliary welding structure 3, the auxiliary welding structure 3 is used for adjusting the hoisting work of the spare part assembly 9 to the top of the auxiliary welding structure 3, the auxiliary welding structure 3 is used for outputting the steel plate, the auxiliary welding structure 3 is used for carrying out auxiliary lifting work on the spare part assembly 9, the working of stabilizing welding is convenient for the staff, the condition that the spare part assembly 9 shakes during hoisting welding is avoided, the work of stable welding of the component parts 9 is completed.

As shown in fig. 3, the hoisting structure 2 comprises a beam assembly 201, a reinforcing assembly 202, a crane mechanism 203 and a support assembly 204, wherein the bottom of the support assembly 204 is bolted to the top of the support frame 5, the top of the support assembly 204 is bolted to the bottom of the beam assembly 201, the top of the beam assembly 201 is bolted to the bottom of the reinforcing assembly 202, one side of the reinforcing assembly 202 close to the support assembly 204 is bolted to the support assembly 204, the surface of the crane mechanism 203 is slidably connected with the inner wall of the beam assembly 201, the crane mechanism 203 and the support assembly 204 are fixed through the positions of the support assembly 204 and the support frame 5 during use, when the steel plate assembly 8 and the bulk member assembly 9 are required to be hoisted, the support frame 5 moves through the electric moving wheel 6, so that the support frame 5 drives the support assembly 204 to the hoisting position, then the crane mechanism 203 is output through the crane mechanism 203, the hoisting operation is facilitated, the positions of the reinforcing assembly 202 and the support assembly 204 are fixed through the positions of the reinforcing assembly 202 and the support assembly 204, the condition that the crane mechanism 203 is rocked during hoisting can be avoided, and the stability of the crane mechanism 203 during hoisting can be increased.

As shown in fig. 4, the crane mechanism 203 comprises a hoisting motor assembly 2031, a hoisting rope 2032 and a lifting hook 2033, wherein the inner wall of the lifting hook 2033 is movably connected with the surface of the hoisting rope 2032, the hoisting rope 2032 is wound on the inner wall of the hoisting motor assembly 2031, the surface of the hoisting motor assembly 2031 is slidably connected with the inner wall of the beam assembly 201, and when in use, the hoisting motor assembly 2031, the hoisting rope 2032 and the lifting hook 2033 are arranged to output, so that the lifting hook 2033 ascends or descends through the hoisting rope 2032, the lifting hook 2033 sequentially hoists the steel plate assembly 8 and the parts assembly 9 to a welding position, and the subsequent welding work of workers is facilitated.

As shown in fig. 5, the bracket assembly 204 includes a fixing block 2041 and a supporting block 2042, the top of the fixing block 2041 is bolted to the bottom of the beam assembly 201, the bottom of the fixing block 2041 is bolted to the top of the supporting block 2042, the bottom of the supporting block 2042 is bolted to the top of the supporting frame 5, one side of the reinforcing assembly 202 close to the supporting block 2042 is bolted to the supporting block 2042, the fixing block 2041 and the supporting block 2042 are fixed in use by the positions of the supporting block 2042 and the supporting frame 5, the fixing block 2042 and the fixing block 2041 are fixed in position of the beam assembly 201, so that the beam assembly 201 can perform stable supporting operation, and the shaking condition of the supporting block 2042 in use can be avoided by fixing the position of the reinforcing assembly 202 and the supporting block 2042.

As shown in fig. 5, the reinforcement assembly 202 includes a reinforcement block 2021 and a reinforcement plate 2022, the bottom of the reinforcement block 2021 is bolted to the top of the beam assembly 201, the bottom of the reinforcement block 2021 is bolted to the top of the reinforcement plate 2022, one side of the reinforcement plate 2022, which is close to the support block 2042, is bolted to the support block 2042, and when in use, the reinforcement block 2021 and the reinforcement plate 2022 are fixed by the positions of the reinforcement block 2021 and the beam assembly 201, and the positions of the reinforcement plate 2022 and the support block 2042 are fixed, so that the support block 2042 and the beam assembly 201 are conveniently fixed, and the support block 2042 is prevented from shaking randomly during support.

The use process is briefly described: through setting up hoisting structure 2, fix through the position of support frame 5 with electronic removal wheel 6 during the use, auxiliary welding structure 3 moves to the welding position through electronic walking wheel 7, then hoisting structure 2 removes at the inner wall of rack 1 through the electronic removal wheel 6 of support frame 5 bottom, make hoisting structure 2 hoist steel sheet, then export through electronic removal wheel 6, make electronic removal wheel 6 drive support frame 5 remove, can drive hoisting structure 2 and remove to auxiliary welding structure 3's top when support frame 5 removes, the work of steel sheet subassembly 8 hoist has been accomplished.

Example 2:

referring to fig. 6-9, the auxiliary welding structure 3 comprises an adjusting mechanism 301, a displacement mechanism 302, a placement component 303 and a sliding component 304, wherein one side of the placement component 303 close to the sliding component 304 is bolted with the sliding component 304, the bottom of the displacement mechanism 302 is bolted with the top of the sliding component 304, the bottom of the sliding component 304 is bolted with the top of the electric traveling wheel 7, the inner wall of the adjusting mechanism 301 is slidably connected with the surface of the displacement mechanism 302, the bulk component 9 is placed on the top of the adjusting mechanism 301, the steel plate component 8 is placed on the top of the placement component 303, the adjusting mechanism 301, the displacement mechanism 302, the placement component 303 and the sliding component 304 are arranged, in use, the position of the sliding component 304 and the electric traveling wheel 7 are fixed, the sliding component 304 drives the placement component 303 to move to a proper position through the electric traveling wheel 7, then the displacement mechanism 302 is outputted, the displacement mechanism 302 drives the adjusting mechanism 301 to move, the adjusting mechanism 301 is enabled to avoid the operation, the lifting hook 2033 is enabled to place the steel plate component 8 on the top of the placement component 303, then the adjusting mechanism 301 is driven to move to a proper position through the displacement mechanism 302, the lifting hook 2033 is enabled to place the bulk component 9 on the top of the adjusting mechanism 301, and then the lifting mechanism 301 is enabled to move through the adjusting mechanism 301 to be driven to stably operate, in use, in order to perform welding operation, and stable operation is enabled.

As shown in fig. 7, the displacement mechanism 302 includes a slide bar 3021, a threaded rod 3022, a mounting plate 3023, an output assembly 3024 and a fixing plate 3025, the bottom of the fixing plate 3025 is bolted to the top of the sliding assembly 304, the top of the fixing plate 3025 is bolted to the bottom of the mounting plate 3023, the output end of the output assembly 3024 is bolted to the front side of the threaded rod 3022, the surface of the threaded rod 3022 is rotationally connected to the inner wall of the mounting plate 3023, the inner wall of the adjustment mechanism 301 is slidably connected to the surface of the slide bar 3021, the inner wall of the adjustment mechanism 301 is threadably connected to the surface of the threaded rod 3022, the slide bar 3021, the threaded rod 3022, the mounting plate 3023, the output assembly 3024 and the fixing plate 3025 are fixed by the positions of the fixing plate 3025 and the sliding assembly 304, the output assembly 304 is convenient for driving the fixing plate 3025 to move, the output assembly 3024 is suitable for the welding work of the steel plate assemblies 8 and the bulk member assembly 9 with different specifications, the output assembly 3024 is convenient for driving the output assembly 3022 to drive the inner wall of the threaded rod 3023 to rotate, and the adjustment mechanism is convenient for the welding the surface of the slide bar 3021 to be driven by the output assembly 3022.

As shown in fig. 8, the adjusting mechanism 301 includes a supporting component 3011, a lifting component 3012 and a sliding block 3013, the top of the sliding block 3013 is bolted to the bottom of the lifting component 3012, the top of the lifting component 3012 is bolted to the bottom of the supporting component 3011, the inner wall of the sliding block 3013 is slidably connected to the surface of the sliding rod 3021, the inner wall of the sliding block 3013 is in threaded connection with the surface of the threaded rod 3022, the component assembly 9 is placed on the top of the supporting component 3011, the position of the supporting component 3011, the lifting component 3012 and the position of the lifting component 3012 are fixed during use, when the threaded rod 3012 rotates on the inner wall of the sliding block 3013, the sliding block 3013 is driven to move on the surface of the sliding rod 3021, and the sliding block 3013 is convenient to drive the supporting component 3011 to move and support, so that the component assembly 9 is convenient to be used for welding operations of different specifications.

As shown in fig. 9, the support assembly 3011 includes a support plate 30111, an electric telescopic rod 30112 and a base 30113, the bottom of the base 30113 is bolted to the top of the lifting assembly 3012, one side of the base 30113, which is close to the electric telescopic rod 30112, is bolted to the electric telescopic rod 30112, one side of the electric telescopic rod 30112, which is close to the support plate 30111, is bolted to the support plate 30111, and the component assembly 9 is placed at the top of the support plate 30111, and is fixed to the position of the lifting assembly 3012 through the base 30113, the base 30113 is fixed to the position of the electric telescopic rod 30112, the electric telescopic rod 30112 is fixed to the position of the support plate 30111, so that the support plate 30111 can perform telescopic operation through the electric telescopic rod 30112, and the support assembly 9 is suitable for different lengths.

The use process is briefly described: through setting up supplementary welded structure 3, fix through the position of sliding component 304 with electric road wheel 7 during the use, when carrying out welding work, sliding component 304 drives and places subassembly 303 and remove to suitable position through electric road wheel 7, then export through displacement mechanism 302, make displacement mechanism 302 drive adjustment mechanism 301 and move, make adjustment mechanism 301 dodge the work, be convenient for lifting hook 2033 places the steel sheet subassembly 8 at the top of placing subassembly 303, then drive adjustment mechanism 301 through displacement mechanism 302 and remove to suitable position, be convenient for lifting hook 2033 places adjustment mechanism 301's top with the spare subassembly 9, then carry out lifting work through adjustment mechanism 301, be convenient for adjustment mechanism 301 drive spare subassembly 9 and carry out stable welded work.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Claims (10)

1. The utility model provides a high strength steel plate conversion truss spare hoist and mount welding equipment, includes rack (1), hoisting structure (2) and supplementary welded structure (3), its characterized in that: the top bolt of rack (1) has dog (4), the bottom bolt of hoisting structure (2) has support frame (5), the bottom bolt of support frame (5) has electronic movable wheel (6), the surface of electronic movable wheel (6) and the inner wall sliding connection of rack (1), the bottom bolt of supplementary welded structure (3) has electronic walking wheel (7), steel sheet subassembly (8) have been placed at the top of supplementary welded structure (3), spare part subassembly (9) have been placed at the top of supplementary welded structure (3).

2. The high strength steel plate conversion truss piece hoisting welding equipment according to claim 1, wherein: the hoisting structure (2) comprises a beam assembly (201), a reinforcing assembly (202), a crane mechanism (203) and a support assembly (204), wherein the bottom of the support assembly (204) is bolted to the top of a support frame (5), the top of the support assembly (204) is bolted to the bottom of the beam assembly (201), the top of the beam assembly (201) is bolted to the bottom of the reinforcing assembly (202), one side, close to the support assembly (204), of the reinforcing assembly (202) is bolted to the support assembly (204), and the surface of the crane mechanism (203) is in sliding connection with the inner wall of the beam assembly (201).

3. The high strength steel plate conversion truss piece hoisting welding equipment according to claim 2, wherein: the crane mechanism (203) comprises a hoisting motor assembly (2031), a lifting rope (2032) and a lifting hook (2033), wherein the inner wall of the lifting hook (2033) is movably connected with the surface of the lifting rope (2032), the lifting rope (2032) is wound on the inner wall of the hoisting motor assembly (2031), and the surface of the hoisting motor assembly (2031) is in sliding connection with the inner wall of the beam assembly (201).

4. The high strength steel plate conversion truss piece hoisting welding equipment according to claim 2, wherein: the support assembly (204) comprises a fixed block (2041) and a support block (2042), wherein the top of the fixed block (2041) is bolted with the bottom of the beam assembly (201), the bottom of the fixed block (2041) is bolted with the top of the support block (2042), the bottom of the support block (2042) is bolted with the top of the support frame (5), and one side of the reinforcing assembly (202) close to the support block (2042) is bolted with the support block (2042).

5. The high strength steel plate conversion truss work piece hoisting welding apparatus of claim 4, wherein: the reinforcement assembly (202) comprises a reinforcement block (2021) and a reinforcement plate (2022), wherein the bottom of the reinforcement block (2021) is bolted to the top of the beam assembly (201), the bottom of the reinforcement block (2021) is bolted to the top of the reinforcement plate (2022), and one side of the reinforcement plate (2022) close to the support block (2042) is bolted to the support block (2042).

6. The high strength steel plate conversion truss piece hoisting welding equipment according to claim 1, wherein: the auxiliary welding structure (3) comprises an adjusting mechanism (301), a displacement mechanism (302), a placement component (303) and a sliding component (304), wherein one side of the placement component (303) close to the sliding component (304) is bolted with the sliding component (304), the bottom of the displacement mechanism (302) is bolted with the top of the sliding component (304), the bottom of the sliding component (304) is bolted with the top of an electric walking wheel (7), the inner wall of the adjusting mechanism (301) is in sliding connection with the surface of the displacement mechanism (302), a spare part component (9) is placed at the top of the adjusting mechanism (301), and a steel plate component (8) is placed at the top of the placement component (303).

7. The high strength steel plate conversion truss work piece hoisting welding apparatus of claim 6, wherein: the displacement mechanism (302) comprises a sliding rod (3021), a threaded rod (3022), a mounting plate (3023), an output assembly (3024) and a fixing plate (3025), wherein the bottom of the fixing plate (3025) is bolted to the top of the sliding assembly (304), the top of the fixing plate (3025) is bolted to the bottom of the mounting plate (3023), the output end of the output assembly (3024) is bolted to the front side of the threaded rod (3022), the surface of the threaded rod (3022) is rotatably connected with the inner wall of the mounting plate (3023), the surface of the sliding rod (3021) is bolted to the inner wall of the mounting plate (3023), the inner wall of the adjusting mechanism (301) is slidably connected with the surface of the sliding rod (3021), and the inner wall of the adjusting mechanism (301) is in threaded connection with the surface of the threaded rod (3022).

8. The high strength steel plate conversion truss work piece hoisting welding apparatus of claim 6, wherein: adjustment mechanism (301) is including supporting component (3011), lifting component (3012) and slider (3013), the top of slider (3013) is bolted with the bottom of lifting component (3012), the top of lifting component (3012) is bolted with the bottom of supporting component (3011), the inner wall of slider (3013) and the surface sliding connection of slide bar (3021), the inner wall of slider (3013) and the surface threaded connection of threaded rod (3022), spare part subassembly (9) are placed at the top of supporting component (3011).

9. The high strength steel plate conversion truss work piece hoisting welding apparatus of claim 8, wherein: supporting component (3011) is including backup pad (30111), electric telescopic handle (30112) and base (30113), the bottom of base (30113) is bolted with the top of lifting unit (3012), one side that base (30113) is close to electric telescopic handle (30112) is bolted with electric telescopic handle (30112), one side that electric telescopic handle (30112) is close to backup pad (30111) is bolted with backup pad (30111), spare part subassembly (9) are placed at the top of backup pad (30111).

10. A hoisting and welding method for high-strength steel plate conversion truss parts is characterized by comprising the following steps of: the method comprises the following steps:

s1, an auxiliary welding structure (3) moves to a welding position through an electric travelling wheel (7), then a lifting structure (2) moves on the inner wall of a placing frame (1) through an electric moving wheel (6) at the bottom of a supporting frame (5), so that the lifting structure (2) lifts a steel plate, then the steel plate is output through the electric moving wheel (6), the electric moving wheel (6) drives the supporting frame (5) to move, the supporting frame (5) moves and simultaneously drives the lifting structure (2) to move to the top of the auxiliary welding structure (3), and the lifting of a steel plate assembly (8) is completed;

s2, when the steel plate assembly (8) is hoisted to the top of the auxiliary welding structure (3), the auxiliary welding structure (3) is used for adjusting work, workers are convenient to hoist the parts assembly (9) to the top of the auxiliary welding structure (3), the auxiliary welding structure (3) is used for outputting, the auxiliary welding structure (3) is used for carrying out auxiliary lifting work on the parts assembly (9), the workers are convenient to carry out stable welding work, the parts assembly (9) is prevented from shaking during hoisting welding, and stable welding work of the parts assembly (9) is completed.