CN115446432A

CN115446432A - Technological equipment for collecting and utilizing welding slag

Info

Publication number: CN115446432A
Application number: CN202211055967.0A
Authority: CN
Inventors: 江嗣水
Original assignee: Jiangxi Xinjiang Welding Materials Co ltd
Current assignee: Jiangxi Xinjiang Welding Materials Co ltd
Priority date: 2022-08-31
Filing date: 2022-08-31
Publication date: 2022-12-09

Abstract

The invention discloses a technological device with welding slag collection and utilization functions, which comprises a submerged arc welding machine main body and a plate, wherein the submerged arc welding machine main body is arranged on the plate, a plurality of movable wheels are arranged on the submerged arc welding machine main body, a blanking assembly is arranged on the submerged arc welding machine main body, when a blanking pipe carries out blanking, welding fluxes are limited through a first baffle and a second baffle, so that the welding fluxes are accumulated between the first baffle and the second baffle, waste caused by welding flux scattering is avoided, the distance between the first baffle and the second baffle can be adjusted through a threaded rod, the feeding amount of the welding fluxes can be adjusted according to the welding requirements of different plates, meanwhile, the welding slag and the redundant welding fluxes after welding can be conveniently recovered through the recovery assembly, the recovered welding fluxes are conveyed to a welding flux bin through a first conveying pipe to be repeatedly used, the scattered welding fluxes can be better recovered and utilized through a recovery brush, the waste of the welding fluxes is avoided, and the utilization rate of the welding fluxes is further improved.

Description

Technological equipment for collecting and utilizing welding slag

Technical Field

The invention relates to the technical field of submerged arc welding devices, in particular to a process device with welding slag collection and utilization functions.

Background

Submerged arc welding has a series of characteristics of high welding productivity, stable and reliable welding quality, good labor conditions and the like, and is widely applied to a plurality of important welding structures, such as boilers, chemical containers, nuclear power, pressure containers, bridges, ships and the like, which are welded by adopting submerged arc welding.

Flux for submerged arc welding is an important welding material. The welding process performance of the welding flux and the chemical metallurgical performance of the welding flux are one of main factors for determining the metal performance of a welding seam, the same welding wire is adopted, the welding is carried out by the same welding process, when different welding fluxes are used, the performance of the obtained welding seam metal is greatly different, particularly the difference in impact toughness is more obvious, therefore, the correct selection of the welding flux is an important problem, and the existing welding flux is put on the welding seam through a blanking pipe in the production process and carries out submerged arc welding through a welding head.

Most of the existing submerged arc welding machines directly put solder on a welding seam through a blanking pipe for welding, so that the solder is easy to scatter and inconvenient to clean and recycle subsequently, and most of the existing solder putting machines directly pile the solder near a discharge port, so that the solder is easy to waste, and the utilization rate of the solder is low.

Disclosure of Invention

The invention aims to provide technological equipment for collecting and utilizing welding slag, which aims to solve the problems that the welding slag of the existing submerged arc welding machine is inconvenient to recycle and the utilization rate of the welding slag is low in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a technological device with welding slag collection and utilization functions comprises a submerged arc welding machine main body and plates, wherein the submerged arc welding machine main body is arranged on the plates and is provided with a plurality of moving wheels, a blanking assembly is arranged on the submerged arc welding machine main body, a submerged arc welding assembly is arranged on the submerged arc welding machine main body, a baffle assembly is arranged on the submerged arc welding machine main body, a recovery assembly is arranged on the submerged arc welding machine main body, and welding seams are formed between the plates;

the submerged arc welding assembly comprises a support column arranged on a submerged arc welding machine main body, a connecting piece is arranged at the top of the support column, a welding head is arranged on the connecting piece, the welding head is arranged right above a welding line, a plate can be welded through the submerged arc welding assembly, and the welding head is arranged right above the welding line, so that the welding is further convenient;

the blanking assembly comprises a welding flux bin arranged on the support column, the bottom of the welding flux bin is connected with a blanking pipe, the blanking pipe is parallel to the welding head, and welding flux can be put into a welding seam through the welding flux bin in the arranged blanking assembly;

the baffle assembly comprises a connecting rod which is slidably mounted on a submerged arc welding machine main body, a first baffle is mounted on the connecting rod, the first baffle is in threaded connection with a second baffle through two threaded rods, the first baffle and the second baffle are respectively arranged on two sides of a welding head and the discharge end of a blanking pipe, the bottom ends of the first baffle and the second baffle are both in contact with the upper surface of a plate, welding flux can be limited by the first baffle and the second baffle when the blanking pipe discharges materials through the baffle assembly, so that the welding flux is accumulated between the first baffle and the second baffle, waste caused by scattering of the welding flux is avoided, the distance between the first baffle and the second baffle can be adjusted through the threaded rods, and the feeding amount of the welding flux can be adjusted according to welding requirements of different plates;

the recycling assembly comprises a negative pressure fan arranged on a submerged arc welding machine main body, a recycling frame is arranged on the negative pressure fan, the open end of the recycling frame is respectively contacted with a first baffle and a second baffle, a first conveying pipe is connected onto the negative pressure fan, the other end of the first conveying pipe is communicated with a welding flux bin, a second conveying pipe is connected onto the negative pressure fan, the other end of the second conveying pipe is communicated with the recycling frame, two micro motors are arranged on the recycling frame, a recycling brush is arranged on an output shaft of each micro motor, the bottom of the recycling brush is contacted with a plate, a slag shoveling block is arranged on the recycling frame and arranged in a welding seam, when the blanking pipe discharges materials, welding slag and redundant welding flux after welding can be conveniently recycled through the recycling assembly arranged, the recycled welding flux is conveyed to the welding flux bin through the first conveying pipe to be reused, and scattered welding flux can be better recycled and utilized through the recycling brush arranged, so that waste of the welding flux is avoided, and the utilization rate of the welding flux is further improved.

Preferably, a T-shaped sliding groove is formed in the submerged arc welding machine main body, a T-shaped sliding block is arranged in the T-shaped sliding groove in a sliding mode, the connecting rod is arranged on the T-shaped sliding block, and the first baffle and the second baffle can vertically lift and guide and limit through the mutual matching of the T-shaped sliding groove and the T-shaped sliding block.

Preferably, install the guide bar in the T shape spout, set up the slide opening with guide bar looks adaptation on the T shape slider, the T shape slider passes through slide opening slidable mounting on the guide bar, the sliding sleeve has pressure spring on the guide bar, pressure spring's one end is installed on the inner wall of T shape spout, pressure spring's the other end is installed on the T shape slider, can make first baffle and second baffle hug closely panel all the time through pressure spring, can avoid the welding flux to scatter through the gap between first baffle, second baffle and the panel.

Preferably, the recycling frame is provided with a recycling hole corresponding to the second conveying pipe, the bottom of the recycling frame is provided with a first inclined plane, and the welding flux in the recycling frame can be conveniently recycled through the recycling hole.

Preferably, retrieve and install on the frame and rotate the connecting block, the shovel sediment piece is rotated through the pivot and is installed on rotating the connecting block, has seted up the second inclined plane on the shovel sediment piece, can get rid of the welding slag in the butt weld through the shovel sediment piece that is equipped with to make things convenient for the operator to retrieve the welding slag.

Preferably, two spacing rotation grooves have been seted up on the first baffle, and the stopper is installed to spacing rotation inslot rotation, and the stopper is installed on the threaded rod, and two spacing rotation groove symmetries are seted up on first baffle and are seen, through mutually supporting of the spacing rotation groove that is equipped with and stopper to can restrict the rotation of stopper, and then realize leading and the restriction to the rotation of threaded rod, make the rotation of threaded rod more steady.

Preferably, two threaded holes are formed in the second baffle, the threaded holes are matched with the threaded rods, the adjusting knob is arranged at the end, extending out of the second baffle, of the threaded rod, the two threaded holes are symmetrically formed in the second baffle, and the two threaded holes are formed in the second baffle and are threaded through the threaded holes, so that when the adjusting knob is rotated to drive the threaded rods to rotate, the second baffle can move axially along the threaded rods.

Preferably, install the go-between on the support column, the welding powder storehouse is installed on the go-between, and through the go-between that is equipped with, can conveniently fix the welding powder storehouse.

Preferably, the welding head is provided with an installation block, the installation block is sleeved at the discharge end of the blanking pipe, and the blanking pipe can be conveniently fixed through the installation block, so that the blanking pipe is parallel to the welding head.

Preferably, install the spliced pole on the negative-pressure air fan, retrieve the frame and install on the spliced pole, can conveniently fix retrieving the frame through setting up of spliced pole.

The invention has the beneficial effects that:

according to the invention, through the arranged baffle plate assembly, when the blanking pipe discharges materials, the welding flux is limited through the first baffle plate and the second baffle plate, so that the welding flux is accumulated between the first baffle plate and the second baffle plate, waste caused by scattering of the welding flux is avoided, the distance between the first baffle plate and the second baffle plate can be adjusted through the arranged threaded rod, the throwing amount of the welding flux can be adjusted according to the welding requirements of different plates, meanwhile, welding slag and redundant welding flux after welding can be conveniently recycled through the arranged recycling assembly, the recycled welding flux is conveyed to the welding flux bin through the first conveying pipe for repeated use, the scattered welding flux can be better recycled and utilized through the arranged recycling brush, waste of the welding flux is avoided, the utilization rate of the welding flux is further improved, and toxic gas generated in the welding process can be synchronously recycled while the welding flux and the welding slag are recycled through the negative pressure fan in the recycling assembly, so that operators are prevented from inhaling a large amount of toxic gas to influence on body health.

According to the submerged arc welding machine, the slag shoveling block is arranged, welding slag generated after welding is finished can be removed in the welding seam, the welding slag is separated from the surface of the welding seam through the slag shoveling block, the purpose of conveniently recycling the welding slag is achieved, the operation of operators is saved, the welding efficiency is further improved, the slag shoveling block can shovel the welding slag out of the welding seam along the second inclined plane in the welding seam and fall onto a plate on one side of the welding seam due to the arrangement of the second inclined plane, the cleaning and recycling of the welding slag by the operators are further facilitated, the slag shoveling block is connected onto the recycling frame through the rotating shaft and the rotating connecting block, the slag shoveling block can be always abutted against the welding seam through the self gravity of the slag shoveling block, the cleaning of the welding slag is further facilitated, the slag shoveling block can be rotated for a certain angle along the rotating shaft when the welding seam is at the tail end, the slag shoveling block is far away from the welding seam, and the change of the moving path caused by the resistance of the submerged arc welding spot in the moving process due to the slag shoveling block catching on the welding seam is avoided.

Drawings

FIG. 1 is a schematic structural diagram of a process equipment with welding slag collection and utilization, which is provided by the invention;

FIG. 2 is a schematic cross-sectional view of a recycling assembly with slag collection and utilization process equipment according to the present invention;

FIG. 3 is a schematic structural diagram of a slag shoveling block with a welding slag collecting and utilizing process device, which is provided by the invention;

FIG. 4 is a schematic top cross-sectional view of a threaded rod with slag collection and utilization process apparatus according to the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 4 with a welding slag collecting and utilizing process apparatus according to the present invention;

FIG. 6 is an enlarged schematic view of the structure at B in FIG. 4 with the slag collecting and utilizing process equipment according to the present invention;

FIG. 7 is an enlarged structural schematic view of a structure C in FIG. 4 with welding slag collection and utilization process equipment according to the present invention;

FIG. 8 is a schematic cross-sectional view of a connecting rod with a slag collecting and utilizing apparatus according to the present invention;

FIG. 9 is an enlarged view of the structure at D in FIG. 8, showing the process equipment for collecting and utilizing welding slag according to the present invention.

In the figure: 1. a submerged arc welding machine main body; 11. a moving wheel; 2. a plate material; 21. welding seams; 3. a blanking assembly; 31. a welding powder bin; 32. a connecting ring; 33. a discharging pipe; 34. mounting blocks; 4. a submerged arc welding assembly; 41. A welding head; 42. a connecting member; 43. a support pillar; 5. a baffle assembly; 51. a first baffle plate; 52. a threaded rod; 53. a second baffle; 54. a threaded hole; 55. adjusting a knob; 56. a limiting rotation groove; 57. a limiting block; 58. a connecting rod; 59. a T-shaped chute; 510. a T-shaped slider; 511. a compression spring; 512. a guide bar; 513. a slide hole; 6. a recovery assembly; 61. a recovery frame; 62. a recovery hole; 63. a first inclined plane; 64. a micro motor; 65. the brush is recovered; 66. connecting columns; 67. a negative pressure fan; 68. a first feed delivery pipe; 69. shoveling slag blocks; 610. a second inclined surface; 611. a second delivery pipe; 612. rotating the connecting block; 613. a rotating shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-9, the technological equipment with the function of welding slag collection and utilization comprises a submerged arc welding machine main body 1 and plates 2, and is characterized in that the submerged arc welding machine main body 1 is arranged on the plates 2, a plurality of moving wheels 11 are installed on the submerged arc welding machine main body 1, a blanking assembly 3 is installed on the submerged arc welding machine main body 1, a submerged arc welding assembly 4 is installed on the submerged arc welding machine main body 1, a baffle assembly 5 is arranged on the submerged arc welding machine main body 1, a recovery assembly 6 is arranged on the submerged arc welding machine main body 1, and welding seams 21 are formed between the plates 2;

the submerged arc welding assembly 4 comprises a supporting column 43 arranged on the submerged arc welding machine body 1, a connecting piece 42 is arranged at the top of the supporting column 43, a welding head 41 is arranged on the connecting piece 42, the welding head 41 is arranged right above the welding seam 21, the plate 2 can be welded through the submerged arc welding assembly 4, and the welding head 41 is arranged right above the welding seam, so that the welding is further convenient;

the blanking assembly 3 comprises a welding flux bin 31 arranged on a support column 43, the bottom of the welding flux bin 31 is connected with a blanking pipe 33, the blanking pipe 33 is parallel to the welding head 41, and welding flux can be put in a welding seam 21 through the welding flux bin 31 in the arranged blanking assembly 3;

the baffle plate assembly 5 comprises a connecting rod 58 which is slidably mounted on the submerged arc welding machine main body 1, a first baffle plate 51 is mounted on the connecting rod 58, the first baffle plate 51 is in threaded connection with a second baffle plate 53 through two threaded rods 52, the first baffle plate 51 and the second baffle plate 53 are respectively arranged on two sides of the discharge end of the welding head 41 and the blanking pipe 33, the bottom ends of the first baffle plate 51 and the second baffle plate 53 are in contact with the upper surface of the plate 2, when the blanking pipe 33 discharges materials through the baffle plate assembly 5, the welding flux can be limited through the first baffle plate 51 and the second baffle plate 53, so that the welding flux is accumulated between the first baffle plate 51 and the second baffle plate 53, waste caused by scattering of the welding flux is avoided, and the distance between the first baffle plate 51 and the second baffle plate 53 can be adjusted through the threaded rods 52, and the feeding amount of the welding flux can be adjusted according to welding requirements of different plates 2;

the recovery assembly 6 comprises a negative pressure fan 67 arranged on the submerged arc welding machine main body 1, a recovery frame 61 is arranged on the negative pressure fan 67, the open end of the recovery frame 61 is respectively contacted with a first baffle plate 51 and a second baffle plate 62, a first material conveying pipe 68 is connected on the negative pressure fan 67, the other end of the first material conveying pipe 68 is communicated with the welding flux bin 31, a second material conveying pipe 611 is connected on the negative pressure fan 67, the other end of the second material conveying pipe 611 is communicated with the recovery frame 61, two micro motors 64 are arranged on the recovery frame 61, a recovery brush 65 is arranged on an output shaft of each micro motor 64, the bottom of each recovery brush 65 is contacted with the plate 2, a slag shoveling block 69 is arranged on the recovery frame 61, the slag shoveling block 69 is arranged in the welding seam 21, the welding slag and redundant welding flux after welding are conveniently recovered through the recovery assembly 6, and the recovered welding flux is conveyed to the welding flux bin 31 through the first material conveying pipe 68 for repeated use, the scattered welding flux can be better recycled and utilized through the recycling brush 65, the waste of the welding flux is avoided, the utilization rate of the welding flux is further improved, the negative pressure fan 67 in the recycling assembly 6 can recycle the welding flux and the welding slag and synchronously recycle the toxic gas generated in the welding process, the influence of the operator on the health of the operator due to the fact that a large amount of toxic gas is sucked is avoided, the negative pressure fan 67 is internally provided with an active carbon filtering device and can discharge the toxic gas after filtering, the health of the operator is further guaranteed, the welding slag generated after the welding is finished can be removed in the welding seam 21 through the slag shoveling block 69, the welding slag is separated from the surface of the welding seam 21 through the slag shoveling block 69, the purpose of conveniently recycling the welding slag is achieved, and the operation of the operator is saved, the welding efficiency is further improved.

Specifically, in the invention, a T-shaped sliding groove 59 is formed in the submerged arc welding machine main body 1, a T-shaped sliding block 510 is slidably mounted in the T-shaped sliding groove 59, a connecting rod 58 is mounted on the T-shaped sliding block 510, and the vertical lifting of the first baffle plate 51 and the second baffle plate 53 is guided and limited through the mutual matching of the T-shaped sliding groove and the T-shaped sliding block.

Specifically, in the invention, a guide rod 512 is installed in the T-shaped sliding groove 59, a sliding hole 513 matched with the guide rod 512 is formed in the T-shaped sliding block 510, the T-shaped sliding block 510 is slidably installed on the guide rod 512 through the sliding hole 513, a compression spring 511 is slidably sleeved on the guide rod 512, one end of the compression spring 511 is installed on the inner wall of the T-shaped sliding groove 59, the other end of the compression spring 511 is installed on the T-shaped sliding block 510, the first baffle 51 and the second baffle 53 can be always attached to the plate through the compression spring 511, and the welding flux can be prevented from scattering through gaps among the first baffle 51, the second baffle 53 and the plate 2.

Specifically, in the present invention, the recycling frame 61 is provided with a recycling hole 62, the recycling hole 62 corresponds to the second material conveying pipe 611, the bottom of the recycling frame 61 is provided with a first inclined surface 63, and the welding flux around the welding seam 21 can be shoveled into the recycling frame 61 through the arrangement of the recycling hole 62 and the first inclined surface 63, so that the welding flux in the recycling frame 61 can be conveniently recycled.

Specifically, in the invention, the recovery frame 61 is provided with the rotating connecting block 612, the slag shoveling block 69 is rotatably installed on the rotating connecting block 612 through the rotating shaft 613, the slag shoveling block 69 is provided with the second inclined surface 610, due to the arrangement of the second inclined surface 610, the slag shoveling block 69 shovels the welding slag out of the welding seam 210 along the second inclined surface 610 in the welding seam 21 and falls onto the plate 2 on one side of the welding seam 210, the cleaning and recovery of the welding slag by an operator are further facilitated, and the slag shoveling block 69 is connected to the recovery frame 61 through the rotating shaft 613 and the rotating connecting block 612, so that the slag shoveling block 69 can be always abutted against the welding seam 21 through the self-gravity of the slag shoveling block 69, the cleaning of the welding slag is facilitated, and when the welding seam 21 is at the end, the slag shoveling block 69 can be rotated by a certain angle along the rotating shaft 613, the slag shoveling block 69 is far away from the welding seam 21, so that the slag shoveling block 69 hooks the welding spot in the welding seam 21 to cause the change of the moving path of the submerged arc welding machine body 1 in the moving process.

Specifically, in the invention, two limiting rotation grooves 56 are formed in the first baffle 51, the limiting blocks 57 are rotatably mounted in the limiting rotation grooves 56, the limiting blocks 57 are mounted on the threaded rod 52, the two limiting rotation grooves 56 are symmetrically formed in the first baffle 51, and the limiting rotation grooves 56 and the limiting blocks 57 are matched with each other, so that the rotation of the limiting blocks 57 can be limited, the rotation of the threaded rod 52 can be guided and limited, and the rotation of the threaded rod 52 is more stable.

Specifically, in the present invention, two threaded holes 54 are formed in the second baffle 53, the threaded holes 54 are adapted to the threaded rod 52, an adjusting knob 55 is disposed at one end of the threaded rod 52 extending out of the second baffle 53, the two threaded holes 54 are symmetrically formed in the second baffle 53, and the second baffle 53 axially moves along the threaded rod 52 when the adjusting knob 55 is rotated to drive the threaded rod 52 to rotate through the threaded holes 54.

Specifically, in the invention, the support column 43 is provided with the connecting ring 32, the welding agent bin 31 is arranged on the connecting ring 32, and the welding agent bin 31 can be conveniently fixed through the connecting ring 32.

Specifically, in the present invention, the mounting block 34 is disposed on the welding head 41, the mounting block 34 is sleeved on the discharge end of the discharging pipe 33, and the discharging pipe can be conveniently fixed by the mounting block 34, so that the discharging pipe 33 is parallel to the welding head 41.

Specifically, in the invention, the connecting column 66 is arranged on the negative pressure fan 67, the recovery frame 61 is arranged on the connecting column 66, and the recovery frame 61 can be conveniently fixed through the arrangement of the connecting column 66.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The technological equipment with the functions of collecting and utilizing the welding slag comprises a submerged arc welding machine main body (1) and a plate (2), and is characterized in that the submerged arc welding machine main body (1) is arranged on the plate (2), a plurality of moving wheels (11) are installed on the submerged arc welding machine main body (1), a blanking assembly (3) is installed on the submerged arc welding machine main body (1), a submerged arc welding assembly (4) is installed on the submerged arc welding machine main body (1), a baffle assembly (5) is arranged on the submerged arc welding machine main body (1), a recovery assembly (6) is arranged on the submerged arc welding machine main body (1), and a welding seam (21) is formed between the plates (2);

the submerged arc welding assembly (4) comprises a supporting column (43) arranged on a submerged arc welding machine main body (1), a connecting piece (42) is arranged at the top of the supporting column (43), a welding head (41) is arranged on the connecting piece (42), and the welding head (41) is arranged right above a welding seam (21);

the blanking assembly (3) comprises a welding flux bin (31) arranged on a support column (43), the bottom of the welding flux bin (31) is connected with a blanking pipe (33), and the blanking pipe (33) is parallel to a welding head (41);

the baffle plate assembly (5) comprises a connecting rod (58) which is slidably mounted on the submerged arc welding machine main body (1), a first baffle plate (51) is mounted on the connecting rod (58), the first baffle plate (51) is in threaded connection with a second baffle plate (53) through two threaded rods (52), the first baffle plate (51) and the second baffle plate (53) are respectively arranged on two sides of the discharge end of the welding head (41) and the discharge end of the discharge pipe (33), and the bottom ends of the first baffle plate (51) and the second baffle plate (53) are both in contact with the upper surface of the plate (2);

retrieve subassembly (6) including installing negative-pressure air fan (67) on submerged arc welding machine main part (1), install on negative-pressure air fan (67) and retrieve frame (61), the open end of retrieving frame (61) contacts with first baffle (51) and second baffle (62) respectively, be connected with first conveying pipeline (68) on negative-pressure air fan (67), the other end and welding powder storehouse (31) of first conveying pipeline (68) are linked together, be connected with second conveying pipeline (611) on negative-pressure air fan (67), the other end and the frame (61) of retrieving of second conveying pipeline (611) are linked together, install two micro motor (64) on retrieving frame (61), install on the output shaft of micro motor (64) and retrieve brush (65), the bottom of retrieving brush (65) contacts with panel (2), install shovel sediment piece (69) on retrieving frame (61), shovel sediment piece (69) arranges in welding seam (21).

2. The technological equipment with the function of collecting and utilizing the welding slag as claimed in claim 1, characterized in that a T-shaped sliding groove (59) is formed in the submerged arc welding machine main body (1), a T-shaped sliding block (510) is installed in the T-shaped sliding groove (59) in a sliding mode, and a connecting rod (58) is installed on the T-shaped sliding block (510).

3. The technological equipment with the functions of welding slag collection and utilization as claimed in claim 2, wherein a guide rod (512) is installed in the T-shaped sliding groove (59), a sliding hole (513) matched with the guide rod (512) is formed in the T-shaped sliding block (510), the T-shaped sliding block (510) is slidably installed on the guide rod (512) through the sliding hole (513), a compression spring (511) is sleeved on the guide rod (512) in a sliding mode, one end of the compression spring (511) is installed on the inner wall of the T-shaped sliding groove (59), and the other end of the compression spring (511) is installed on the T-shaped sliding block (510).

4. The technological equipment for collecting and utilizing welding slag as claimed in claim 1, wherein the recycling frame (61) is provided with recycling holes (62), the recycling holes (62) correspond to the second material conveying pipe (611), and the bottom of the recycling frame (61) is provided with a first inclined surface (63).

5. The technological equipment with the function of collecting and utilizing welding slag as claimed in claim 1, wherein the recovery frame (61) is provided with a rotary connecting block (612), the slag shoveling block (69) is rotatably arranged on the rotary connecting block (612) through a rotating shaft (613), and a second inclined surface (610) is formed on the slag shoveling block (69).

6. The welding slag collecting and utilizing process equipment as claimed in claim 1, wherein the first baffle plate (51) is provided with two limiting rotation grooves (56), the limiting rotation grooves (56) are rotatably provided with limiting blocks (57), the limiting blocks (57) are arranged on the threaded rod (52), and the two limiting rotation grooves (56) are symmetrically arranged on the first baffle plate (51).

7. The technological equipment with the functions of welding slag collection and utilization as claimed in claim 1, wherein the second baffle plate (53) is provided with two threaded holes (54), the threaded holes (54) are matched with the threaded rods (52), one end of each threaded rod (52) extending out of the second baffle plate (53) is provided with an adjusting knob (55), and the two threaded holes (54) are symmetrically arranged on the second baffle plate (53).

8. The process equipment with the function of collecting and utilizing the welding slag as claimed in claim 1, wherein the support column (43) is provided with a connecting ring (32), and the welding agent bin (31) is arranged on the connecting ring (32).

9. A process unit with slag collection and utilization according to claim 1, characterized in that the welding head (41) is provided with a mounting block (34), and the mounting block (34) is sleeved on the discharge end of the blanking pipe (33).

10. The process equipment with the function of welding slag collection and utilization as claimed in claim 1, wherein a connecting column (66) is installed on the negative pressure fan (67), and the recovery frame (61) is installed on the connecting column (66).