CN219336662U - Welding equipment for prefabrication and assembly of factory pipelines - Google Patents

Abstract

The utility model discloses welding equipment for prefabrication and assembly of a factory pipeline, which comprises a welding platform, a first pipeline body and a second pipeline body, wherein a first pipeline placing seat and a second pipeline placing seat are fixedly arranged on the top side of the welding platform, a placing rotating assembly is arranged on each of the first pipeline placing seat and the second pipeline placing seat, a rotating motor on the placing rotating assembly is started to run during welding, a plurality of active rotating rollers synchronously run, at the moment, the first pipeline body and the second pipeline body synchronously rotate, so that the two pipelines are not easily affected during welding, the arrangement of a plurality of auxiliary rotating rollers is convenient for the first pipeline body and the second pipeline body to rotate while being pressed, the uniform welding at a welding seam can be effectively ensured, and meanwhile, a worker is not required to manually turn the first pipeline body and the second pipeline body, so that the welding quality is effectively ensured.

Description

Welding equipment for prefabrication and assembly of factory pipelines

Technical Field

The utility model relates to the technical field of pipeline welding, in particular to welding equipment for prefabrication and assembly of a factory pipeline.

Background

The construction project scale is gradually enlarged, the construction cost is gradually increased, the construction period is shorter and shorter, the construction quality is higher and higher, and the like, so that construction enterprises are required to improve the construction process, great advantages can be brought to the enterprises by utilizing the factory prefabrication construction technology, the working efficiency can be improved in project implementation, the construction period is ensured, and the component quality is improved.

When the prefabricated assembly is carried out on the pipelines in factories, the prefabricated pipelines are required to be welded together to form a whole pipeline, the pipelines are generally placed on the ground in the welding process of the existing pipelines, a worker holds a welding gun by hand, the welding gun is continuously moved to weld the end parts of the two pipelines, the pipelines are placed on the ground and are in contact with the ground, the welding gun is difficult to weld, the pipelines are required to be rotated, the pipelines are required to be pushed by the worker, after one side of the pipelines are pushed, the pipelines on the other side of the pipelines are not stressed, the welding part is easy to crack or damage, and the welding is inconvenient.

In view of the above, the present utility model discloses a welding device for prefabricating and assembling a factory pipeline, which is used for solving the above problems.

Disclosure of Invention

The utility model aims to provide welding equipment for prefabrication and assembly of a factory pipeline, so as to solve the problems in the background technology.

In order to achieve the above purpose, the utility model provides a technical scheme that a welding device for prefabrication and assembly of a factory pipeline comprises a welding platform, a first pipeline body and a second pipeline body, wherein a first pipeline placing seat and a second pipeline placing seat are fixedly arranged on the top side of the welding platform, placing rotating assemblies are arranged on the first pipeline placing seat and the second pipeline placing seat, the first pipeline body and the second pipeline body are placed on the placing rotating assemblies, a support is arranged on the welding platform, an auxiliary top pressing assembly is arranged on the support, and a welding assembly is arranged on the support.

Preferably, the placing rotating assembly comprises a bottom arc groove arranged on the first pipeline placing seat or the second pipeline placing seat, a plurality of driving rotating rollers are rotatably arranged in the bottom arc groove and are equidistantly arranged at intervals, anti-slip rubber sleeves are sleeved on the outer sides of the driving rotating rollers, a plurality of rotating motors are respectively arranged on one sides of the first pipeline placing seat or the second pipeline placing seat, the driving rotating rollers are fixedly sleeved on output ends of the rotating motors respectively, when welding is conducted, the rotating motors on the placing rotating assembly are started to operate, the driving rotating rollers are driven to rotate by operation of the rotating motors, and the driving rotating rollers on the first pipeline placing seat and the second pipeline placing seat synchronously operate, so that the first pipeline body and the second pipeline body synchronously rotate, and the welding of the two pipelines is not easily affected.

Preferably, the auxiliary pressing component at the top comprises a first telescopic cylinder and a second telescopic cylinder which are arranged on the support, the output ends of the first telescopic cylinder and the second telescopic cylinder are respectively and fixedly provided with a first upper arc pressing block and a second upper arc pressing block, the first upper arc pressing block and the second upper arc pressing block are respectively located above the first pipeline placing seat or the second pipeline placing seat, the first telescopic cylinder and the second telescopic cylinder on the auxiliary pressing component at the top are started to operate, the first upper arc pressing block and the second upper arc pressing block can be driven to move downwards, and a plurality of auxiliary rotating rollers above the auxiliary rotating rollers are respectively contacted with the first pipeline body and the second pipeline body through downward movement.

Preferably, the bottom side of first upper portion arc briquetting and second upper portion arc briquetting has all been seted up the top arc wall, rotate in the top arc wall and install a plurality of supplementary commentaries on classics roller, a plurality of supplementary commentaries on classics rollers are equidistant interval setting, the bottom side of a plurality of supplementary commentaries on classics rollers contacts with first pipeline body and second pipeline body respectively, the setting of a plurality of supplementary commentaries on classics rollers, be convenient for first pipeline body and second pipeline body when compressing tightly, also can rotate, synchronous at uniform velocity rotates, can effectively ensure the even welding of welding seam department, do not need the manual first pipeline body of turning over of staff and second pipeline body simultaneously, effectively ensured welded quality.

Preferably, the welding assembly comprises a telescopic motor arranged on the support, the output end of the telescopic motor is connected with a welding head, a welding machine is arranged on the top side of the welding platform and is communicated with the welding head through a pipeline, the welding head is located at the upper position of the joint of the first pipeline body and the second pipeline body, the telescopic motor on the welding assembly is started to operate, the welding head can be driven to move downwards, and after the welding head moves to a designated position, the welding machine is matched with the welding machine to weld the joint of the first pipeline body and the second pipeline body.

Preferably, goggles are fixedly installed on two sides of the welding head, the goggles are in arc-shaped structure, and the goggles enable workers to intuitively observe welding conditions during welding, so that the eyes are not hurt.

Compared with the prior art, the utility model has the beneficial effects that:

the first pipeline body and the second pipeline body are respectively placed on the first pipeline placing seat and the second pipeline placing seat, a first telescopic cylinder and a second telescopic cylinder on the top auxiliary pressing assembly are started to operate, the first upper arc-shaped pressing block and the second upper arc-shaped pressing block can be driven to move downwards, a plurality of auxiliary rotating rollers above the first pipeline body and the second pipeline body are respectively contacted with each other through the downward movement, at the moment, a telescopic motor on the welding assembly is started to operate, a welding head can be driven to move downwards, and after the welding head is moved to a designated position, a welding machine is matched, so that welding operation can be carried out on the joint of the first pipeline body and the second pipeline body;

when welding, start to place the rotation motor operation on the rotating assembly, the rotation motor operation drives initiative roller rotation, a plurality of initiative roller synchronous operation on seat is placed to first pipeline and the second pipeline is placed to the second pipeline, first pipeline body and second pipeline body will synchronous rotation this moment, be difficult for receiving the influence when effectively guaranteeing two pipeline welds, the setting of a plurality of supplementary rollers, first pipeline body and second pipeline body of being convenient for also can rotate when compressing tightly, synchronous at uniform velocity rotates, can effectively ensure the even welding of welding seam department, do not need the manual first pipeline body of turning of staff and second pipeline body simultaneously, welded quality has effectively been ensured.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic side cross-sectional view of the present utility model;

FIG. 3 is a schematic view of the structure of the present utility model in vertical section;

fig. 4 is a schematic structural view of the portion a in fig. 2 according to the present utility model.

In the figure: 1. a welding platform; 2. a first pipe placement seat; 3. a second pipe placement seat; 4. a first pipe body; 5. a second pipe body; 6. a bracket; 7. a first telescopic cylinder; 8. the second telescopic cylinder; 9. a telescopic motor; 10. a welding head; 11. welding machine; 12. goggles; 13. a first upper arc-shaped briquette; 14. a second upper arc-shaped press block; 15. a bottom arc-shaped groove; 16. a rotating motor; 17. actively rotating the roller; 18. an anti-slip rubber sleeve; 19. a top arcuate slot; 20. and (5) assisting in rotating the roller.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the welding equipment for prefabrication and assembly of the factory pipeline comprises a welding platform 1, a first pipeline body 4 and a second pipeline body 5, wherein a first pipeline placing seat 2 and a second pipeline placing seat 3 are fixedly arranged on the top side of the welding platform 1, placing rotating components are arranged on the first pipeline placing seat 2 and the second pipeline placing seat 3, the first pipeline body 4 and the second pipeline body 5 are placed on the placing rotating components, a bracket 6 is arranged on the welding platform 1, a top auxiliary pressing component is arranged on the bracket 6, a welding component is arranged on the bracket 6, the placing rotating components comprise a bottom arc-shaped groove 15 arranged on the first pipeline placing seat 2 or the second pipeline placing seat 3, a plurality of driving rotating rollers 17 are rotatably arranged in the bottom arc-shaped groove 15 at equal intervals, the outer sides of the driving rotating rollers 17 are sleeved with anti-skid rubber sleeves 18, a plurality of rotating motors 16 are arranged on one side of the first pipeline placing seat 2 or the second pipeline placing seat 3, a plurality of active rotating rollers 17 are respectively and fixedly sleeved on the output ends of the plurality of rotating motors 16, during welding, the rotating motors 16 on the placing rotating assembly are started to operate, the rotating motors 16 operate to drive the active rotating rollers 17 to rotate, the plurality of active rotating rollers 17 on the first pipeline placing seat 2 and the second pipeline placing seat 3 operate synchronously, at the moment, the first pipeline body 4 and the second pipeline body 5 synchronously rotate, so that the two pipelines are not easily affected during welding, the top auxiliary pressing assembly comprises a first telescopic cylinder 7 and a second telescopic cylinder 8 which are arranged on a bracket 6, the output ends of the first telescopic cylinder 7 and the second telescopic cylinder 8 are respectively and fixedly provided with a first upper arc pressing block 13 and a second upper arc pressing block 14, the first upper arc pressing block 13 and the second upper arc pressing block 14 are respectively positioned above the first pipeline placing seat 2 or the second pipeline placing seat 3, the first telescopic cylinder 7 and the second telescopic cylinder 8 on the top auxiliary pressing assembly are started to run, the first upper arc pressing block 13 and the second upper arc pressing block 14 can be driven to move downwards, a plurality of auxiliary rotating rollers 20 above are respectively contacted with the first pipeline body 4 and the second pipeline body 5 through the downward movement, top arc grooves 19 are respectively formed on the bottom sides of the first upper arc pressing block 13 and the second upper arc pressing block 14, a plurality of auxiliary rotating rollers 20 are rotatably arranged in the top arc grooves 19, the plurality of auxiliary rotating rollers 20 are arranged at equal intervals, the bottom sides of the plurality of auxiliary rotating rollers 20 are respectively contacted with the first pipeline body 4 and the second pipeline body 5, the plurality of auxiliary rotating rollers 20 are arranged, the welding device is convenient for the first pipeline body 4 and the second pipeline body 5 to rotate while compacting, synchronously rotates at a constant speed, can effectively ensure the uniform welding of the welding seam, does not need a worker to manually turn the first pipeline body 4 and the second pipeline body 5, effectively ensures the welding quality, comprises a telescopic motor 9 arranged on a bracket 6, the output end of the telescopic motor 9 is connected with a welding head 10, the top side of a welding platform 1 is provided with a welding machine 11, the welding machine 11 is communicated with the welding head 10 through a pipeline, the welding head 10 is positioned above the joint of the first pipeline body 4 and the second pipeline body 5, the telescopic motor 9 on the welding assembly is started to operate, the welding head 10 can be driven to move downwards, and can carry out welding operation on the joint of the first pipeline body 4 and the second pipeline body 5 by matching with the welding machine 11 after moving to a designated position, the goggles 12 are fixedly arranged on two sides of the welding head 10, the goggles 12 are arranged in an arc-shaped structure, and the arranged goggles 12 enable workers to intuitively observe the welding seam condition during welding, so that the eyes are not damaged.

Working principle: the first pipeline body 4 and the second pipeline body 5 for factories need to be prefabricated and assembled, the ends of the first pipeline body 4 and the second pipeline body 5 need to be welded, the first pipeline body 4 and the second pipeline body 5 are respectively placed on the first pipeline placing seat 2 and the second pipeline placing seat 3, the joint of the first pipeline body 4 and the second pipeline body 5 is positioned below the welding head 10, then the first telescopic cylinder 7 and the second telescopic cylinder 8 on the top auxiliary pressing assembly are started to operate, the first upper arc pressing block 13 and the second upper arc pressing block 14 can be driven to move downwards, the plurality of auxiliary rotating rollers 20 above are respectively contacted with the first pipeline body 4 and the second pipeline body 5 through downward movement, at the moment, the telescopic motor 9 on the welding assembly is started to operate, the welding head 10 can be driven to move downwards, after moving to the appointed position, the welding machine 11 is matched, the welding operation can be carried out on the joint of the first pipeline body 4 and the second pipeline body 5, during welding, the rotating motor 16 on the placing rotating assembly is started to operate, the rotating motor 16 operates to drive the driving rotating roller 17 to rotate, the driving rotating rollers 17 on the first pipeline placing seat 2 and the second pipeline placing seat 3 synchronously operate, at the moment, the first pipeline body 4 and the second pipeline body 5 synchronously rotate, so that the two pipelines are not easily affected when being welded, the arrangement of the auxiliary rotating rollers 20 is convenient for the first pipeline body 4 and the second pipeline body 5 to rotate while being pressed tightly, synchronous uniform rotation can be carried out, uniform welding at the welding seam can be effectively ensured, and meanwhile, the first pipeline body 4 and the second pipeline body 5 do not need to be manually turned by a worker, so that the welding quality is effectively ensured, the goggles 12 can enable workers to visually observe the welding seam condition during welding, and the eyes are not hurt, so that the welding seam welding machine is convenient to use.

Claims (6)

1. Welding equipment for factory pipeline prefabrication equipment, including welded platform (1), first pipeline body (4) and second pipeline body (5), its characterized in that, welded platform (1) top side fixed mounting has first pipeline to place seat (2) and second pipeline and places seat (3), first pipeline is placed and is all equipped with on seat (2) and second pipeline and place seat (3) and place rotating assembly, first pipeline body (4) and second pipeline body (5) are placed on placing rotating assembly, be equipped with support (6) on welded platform (1), be equipped with top auxiliary compression subassembly on support (6), be equipped with welding assembly on support (6).

2. The welding equipment for prefabrication and assembly of factory pipelines according to claim 1, wherein the placing rotating assembly comprises a bottom arc-shaped groove (15) formed in the first pipeline placing seat (2) or the second pipeline placing seat (3), a plurality of driving rotating rollers (17) are installed in the bottom arc-shaped groove (15) in a rotating mode, the driving rotating rollers (17) are arranged at equal intervals, anti-slip rubber sleeves (18) are sleeved on the outer sides of the driving rotating rollers (17), a plurality of rotating motors (16) are installed on one side of the first pipeline placing seat (2) or the second pipeline placing seat (3), and the driving rotating rollers (17) are fixedly sleeved on output ends of the rotating motors (16) respectively.

3. The welding equipment for prefabrication assembly of a factory pipeline according to claim 1, wherein the top auxiliary pressing assembly comprises a first telescopic cylinder (7) and a second telescopic cylinder (8) which are mounted on a support (6), wherein the output ends of the first telescopic cylinder (7) and the second telescopic cylinder (8) are respectively fixedly provided with a first upper arc pressing block (13) and a second upper arc pressing block (14), and the first upper arc pressing block (13) and the second upper arc pressing block (14) are respectively positioned above the first pipeline placing seat (2) or the second pipeline placing seat (3).

4. A welding device for prefabrication and assembly of a factory pipeline according to claim 3, wherein the bottom sides of the first upper arc pressing block (13) and the second upper arc pressing block (14) are provided with top arc grooves (19), a plurality of auxiliary rotating rollers (20) are rotatably arranged in the top arc grooves (19), the auxiliary rotating rollers (20) are equidistantly arranged at intervals, and the bottom sides of the auxiliary rotating rollers (20) are respectively contacted with the first pipeline body (4) and the second pipeline body (5).

5. Welding equipment for prefabrication assembly of a factory pipeline according to claim 1, characterized in that the welding assembly comprises a telescopic motor (9) mounted on a support (6), the output end of the telescopic motor (9) is connected with a welding head (10), a welding machine (11) is mounted on the top side of the welding platform (1), the welding machine (11) is communicated with the welding head (10) through a pipeline, and the welding head (10) is located above the joint of the first pipeline body (4) and the second pipeline body (5).

6. The welding equipment for prefabrication assembly of factory pipelines according to claim 5, wherein goggles (12) are fixedly arranged on two sides of the welding head (10), and the goggles (12) are arranged in an arc-shaped structure.

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