CN118081374A - Conveying type welding processing equipment - Google Patents

Abstract

The invention discloses conveying type welding processing equipment, which belongs to the technical field of welding, wherein a rotating seat is arranged between supporting frames at two sides through supporting plates, gear rings are rotatably arranged at two sides of a welding cavity, and a welding mechanism is fixedly arranged on the gear rings; the welding mechanism comprises a base and a telescopic arm, the bottom of the base is connected with a cylinder, and the welding mechanism is fixedly connected to the gear ring through the cylinder; the polishing mechanism is arranged between the conveying mechanisms on two sides and comprises two groups of sliding frames which are parallel to each other, a connecting plate is fixedly arranged between the sliding frames, a linkage gear is rotatably arranged on the connecting plate, a sliding plate is movably arranged in the sliding frames, and a meshing part is arranged on the side face of the toothed plate. According to the invention, the welding gun can swing reciprocally under the cooperation of the swing motor, the swing arm and the swing groove. And one group of sliding plates can synchronously drive the sliding plate on the other side to reciprocate, and when the sliding plate moves, the button on the side face can be triggered, so that the conveying steel belt and the scraps on the surface of the component are cleaned through the second air pipe.

Description

Conveying type welding processing equipment

Technical Field

The invention relates to the technical field of welding, in particular to conveying type welding processing equipment.

Background

The steel structure is widely applied to factory building construction, high-rise building and bridge construction, and the large-scale stainless steel structure is often used in product structures with harsh conditions and severe environment working conditions. A common steel member is a bar-shaped steel with a certain cross-sectional shape and size, and in actual steel structure processing, simple section steel is often used for assembling and welding to obtain a steel structure meeting the requirements of different occasions. However, for some irregular steel members used in special places, clamping is inconvenient, and the welded members cannot be polished quickly, so that the problems of difficult welding and low efficiency are caused.

The patent application with publication number CN115973682A discloses a radiator steel liner conveying type double-group welding machine. Through installing the radiator on the frock board, when the frock board moves to the welding set below along with the conveyer belt, through roof jacking frock board and radiator, the frock board breaks away from the conveyer belt and upwards moves to welding set in, accomplish the location of radiator and through the fixed radiator of drive arrangement and drive the radiator rotation through positioner, the roof moves down and makes frock board and radiator break away from, welding set welds the radiator, accomplish the welding, can weld a plurality of radiators simultaneously through the multiunit welding set that sets up, promote machining efficiency by a wide margin.

However, the degree of freedom of the conveying type welding equipment disclosed above is generally not capable of adjusting the angle and the position of the welding gun according to the actual requirement by 360 degrees, and therefore, some inconvenient clamping components cannot be processed, and a polishing mechanism is lacking, so that the welded components cannot be polished rapidly.

Disclosure of Invention

The invention aims at: in order to solve the problems that the degree of freedom of the existing steel welding equipment is general, the angle and the position of a welding gun cannot be freely adjusted according to actual demands, some inconvenient clamped components cannot be machined, a polishing mechanism is lacking, rapid polishing cannot be carried out on the welded components, and the like, the conveying type welding processing equipment is provided.

In order to achieve the above purpose, the technical scheme of the invention is as follows: the conveying type welding processing equipment comprises two groups of conveying mechanisms, welding mechanisms and polishing mechanisms which are symmetrical with each other, wherein each conveying mechanism comprises two groups of conveying rollers which are symmetrical with each other, two sides of each conveying roller are rotatably arranged on a supporting frame, a rotating seat is arranged between the conveying rollers, and the rotating seat is arranged between the supporting frames on two sides through supporting plates; a welding cavity is formed in the middle of the rotating seat, gear rings are rotatably arranged on two sides of the welding cavity, and the welding mechanism is fixedly arranged on the gear rings; the welding mechanism comprises a base and a telescopic arm, the bottom of the base is connected with an air cylinder, the welding mechanism is fixedly connected to the gear ring through the air cylinder, a swinging cavity is formed in the telescopic arm, a swinging motor is installed in the swinging cavity, the output end of the swinging motor is connected with a swinging arm, a lug is arranged on the swinging arm, welding guns are movably arranged on the side faces of the telescopic arm, two sides of each welding gun are connected with swinging arms, each welding gun is movably installed on two sides of the telescopic arm through the corresponding swinging arm, swinging grooves matched with the corresponding lugs are formed in the bottom of each welding gun, and each swinging motor drives each welding gun to swing back and forth on a plane perpendicular to the rotating seat; the polishing mechanism comprises two groups of sliding frames which are parallel to each other, a connecting plate is fixedly arranged between the sliding frames, a linkage gear is rotatably arranged on the connecting plate, a sliding plate is movably arranged in the sliding frames, and the side face of the sliding plate is provided with a meshing part matched with the linkage gear.

As still further aspects of the invention: the middle part of the sliding frame is provided with a supporting frame, the middle part of the supporting frame is provided with a swinging motor, the output end of the swinging motor is connected with a driving rod, and the top of one group of sliding plates is provided with a driving frame matched with the driving rod; the bottom of one side of the sliding frame is provided with a through groove, and the through grooves on the two groups of sliding frames are diagonally arranged; and a polishing motor is further arranged on the sliding plate, and the output end of the polishing motor is connected with a polishing fan penetrating through the through groove.

As still further aspects of the invention: the side of support frame still is provided with symmetrical mounting panel, install the upset motor on the mounting panel, the output of upset motor be connected with ring gear complex upset gear.

As still further aspects of the invention: the push button is arranged on the inner wall of one side of the sliding frame, which is far away from the through groove, a second fan is arranged at the bottom of the sliding frame, and the output end of the second fan is connected with a second spray pipe which faces the conveying mechanism.

As still further aspects of the invention: a first fan is arranged at the opposite angle of the rotating seat, and the output end of the first fan is provided with a self-opening spray pipe I positioned at the two sides of the rotating seat; the novel spray pipe is characterized in that a limiting plate is arranged on the inner wall of the first spray pipe, a first spray hole is formed in the limiting plate, a limiting ring is arranged at the outlet of the first spray pipe, a moving plate is movably arranged between the limiting ring and the limiting plate, a second spray hole staggered with the first spray hole is formed in the moving plate, and the edge of the moving plate is connected with the limiting ring through a plurality of groups of reset springs.

As still further aspects of the invention: the telescopic device comprises a base, and is characterized in that a telescopic cavity is formed in the base, a telescopic arm is movably arranged in the telescopic cavity, a rotating cavity matched with the telescopic cavity is formed in the side face of the base, a rotating plug is arranged in the rotating cavity, a meshing cavity matched with the rotating plug is formed in the side face of the telescopic arm, a toothed plate is arranged in the meshing cavity, and a telescopic gear meshed with the toothed plate is connected to the inner side of the rotating plug.

As still further aspects of the invention: the inner wall of the rotating cavity is provided with a plurality of groups of grooves, a positioning spring is arranged in each groove, a ball is arranged at the top of each positioning spring, and a plurality of groups of grooves matched with the balls are formed in the side face of the rotating plug.

As still further aspects of the invention: t-shaped blocks are arranged on two sides of the rotating seat, and T-shaped grooves matched with the T-shaped blocks are formed in the gear ring; the sliding frame is characterized in that sliding blocks are arranged on two sides of the sliding frame, and sliding grooves matched with the sliding blocks are formed in two sides of the sliding plate.

As still further aspects of the invention: the conveying rollers are connected through conveying steel belts.

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

1. According to the invention, welding operation can be performed on some semi-product steel structures which are inconvenient to clamp through the conveying steel belts on the two sides, and scraps generated by welding can be blown down to the bottom through the cooperation of the welding gun and the first spray pipe, so that the phenomenon that welding slag is accumulated on the steel structure to influence subsequent operation is avoided. When welding is required to be carried out on different positions, the gear ring and the welding mechanism on one side are driven to rotate by the overturning motor, so that the safety of welding processing equipment is improved and the labor cost is reduced by the design.

2. According to the invention, the angle of the welding gun can be freely adjusted according to actual demands through the gear ring, and the position of the welding gun can be adjusted through the toothed plate and the telescopic gear, wherein the welding gun can swing reciprocally under the cooperation of the swinging motor, the swinging arm and the swinging groove. Through the cooperation of swing motor and engaging part, the slide of wherein a set of slide can synchronous drive opposite side reciprocating motion drives the side and polishes the fan along leading to groove reciprocating motion to polish the steel member of both sides. When the sliding plate reciprocates, the button on the side face can be triggered, so that the chips on the surfaces of the conveying steel belt and the component are cleaned up through the second air pipe, and the freedom degree and the machining efficiency of the conveying type welding machining equipment are improved through the design.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a cross-sectional view of a swivel mount of the present invention;

FIG. 3 is a cross-sectional view of a first nozzle of the present invention;

FIG. 4 is a perspective view of a welding mechanism according to the present invention;

FIG. 5 is a cross-sectional view of a base of the present invention;

FIG. 6 is an internal structural view of the telescopic boom of the present invention;

FIG. 7 is a partial cross-sectional view of a welding mechanism of the present invention;

FIG. 8 is a first perspective view of the grinding mechanism of the present invention;

FIG. 9 is a second perspective view of the grinding mechanism of the present invention;

fig. 10 is a cross-sectional view of the grinding mechanism of the present invention.

Reference numerals illustrate:

1. A conveying mechanism; 101. a conveying roller; 102. conveying the steel belt; 103. a support frame; 104. a support plate; 105. a rotating seat; 106. a welding cavity; 107. a gear ring; 108. a T-shaped block; 109. a T-shaped groove; 110. a mounting plate; 111. a turnover motor; 112. a turnover gear; 113. a first fan; 114. a spray pipe I; 115. a limiting plate; 116. a first spray hole; 117. a limiting ring; 118. a moving plate; 119. a return spring; 120. a second spray hole; 2. a welding mechanism; 201. a base; 202. a telescoping arm; 203. an engagement cavity; 204. rotating the plug; 205. a toothed plate; 206. a telescopic gear; 207. a rotating chamber; 208. a telescopic chamber; 209. slotting; 210. a positioning spring; 211. a ball; 212. a groove; 213. a rocking cavity; 214. a welding gun; 215. a swing arm; 216. swing arms; 217. a bump; 218. a swinging groove; 219. a swing motor; 220. a cylinder; 3. a polishing mechanism; 301. a sliding frame; 302. a connecting plate; 303. a linkage gear; 304. a support frame; 305. a swing motor; 306. a driving rod; 307. a slide plate; 308. an engagement portion; 309. a drive frame; 310. a through groove; 311. polishing a motor; 312. polishing the fan; 313. a button; 314. a second fan; 315. a spray pipe II; 316. a slide block; 317. and a sliding groove.

Detailed Description

The technical solutions of the present invention will be clearly and completely described below with reference to fig. 1 to 10, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides conveying type welding processing equipment through improvement, as shown in fig. 1-10, the conveying type welding processing equipment comprises two groups of conveying mechanisms 1, a welding mechanism 2 and a polishing mechanism 3 which are symmetrical to each other, wherein the conveying mechanism 1 comprises two groups of symmetrical conveying rollers 101, two sides of each conveying roller 101 are rotatably arranged on a supporting frame 103, a rotating seat 105 is arranged between the conveying rollers 101, and the rotating seat 105 is arranged between the supporting frames 103 on two sides through a supporting plate 104; a welding cavity 106 is formed in the middle of the rotating seat 105, gear rings 107 are rotatably arranged on two sides of the welding cavity 106, and the welding mechanism 2 is fixedly arranged on the gear rings 107; the welding mechanism 2 comprises a base 201 and a telescopic arm 202, an air cylinder 220 is connected to the bottom of the base 201, the welding mechanism 2 is fixedly connected to a gear ring 107 through the air cylinder 220, a swinging cavity 213 is formed in the telescopic arm 202, a swinging motor 219 is installed in the swinging cavity 213, the output end of the swinging motor 219 is connected with a swinging arm 216, a bump 217 is arranged on the swinging arm 216, a welding gun 214 is movably arranged on the side face of the telescopic arm 202, two sides of the welding gun 214 are connected with swinging arms 215, the welding gun 214 is movably installed on two sides of the telescopic arm 202 through the swinging arms 215, a swinging groove 218 matched with the bump 217 is formed in the bottom of the welding gun 214, and the swinging motor 219 drives the welding gun 214 to swing back and forth on a plane perpendicular to the rotating seat 105; the polishing mechanism 3 is arranged between the conveying mechanisms 1 on two sides, the polishing mechanism 3 comprises two groups of sliding frames 301 which are parallel to each other, a connecting plate 302 is fixedly arranged between the sliding frames 301, a linkage gear 303 is rotatably arranged on the connecting plate 302, a sliding plate 307 is movably arranged in the sliding frames 301, and a meshing part 308 matched with the linkage gear 303 is arranged on the side face of the sliding plate 307.

In this embodiment: the conveying type welding processing equipment is mainly divided into three parts: a conveying mechanism 1, a welding mechanism 2 and a polishing mechanism 3. In use, the apparatus is first placed onto the conveyor belt 102 with the semi-finished steel components to be treated and the location where the steel components are to be welded is moved by the conveyor belt 102 to the welding chamber 106. When welding, a part of the slag generated may accumulate on the member. When the fan I113 is turned on, the moving plate 118 moves outward along the nozzle I114 under the impact of the air flow, and the air flow blows the chips through the nozzle I116 and the nozzle II 120. The extent of projection of the gun 214 can be pre-adjusted by turning the plug 204 and by the toothed plate 205, as desired, prior to machining. And can reciprocate welding gun 214 with the cooperation of swing motor 219, swing arm 215 and swing groove 218. When the fan I113 is closed, the movable plate 118 is tightly attached to the side surface of the limit plate 115 under the action of the return spring 119. Because the first orifice 116 and the second orifice 120 are offset, the limiting plate 115 shields the second orifice 120. When the swing motor 305 and the polishing motor 311 are started, one group of sliding plates 307 simultaneously drives the sliding plate 307 on the other side to reciprocate under the cooperation of the driving frame 309 and the engagement portion 308, so that the polishing fan 312 on the side rotates and also reciprocates along with the sliding plate 307. When the slide 307 moves inward along the slide frame 301, with the sharpening fan 312 away from the member, the side of the slide 307 activates the button 313 and the fan two 314, and the nozzle two 315 cleans the conveying steel belt 102 and the surface of the member of the remaining sharpening debris.

Referring to fig. 1 and 9-10, a supporting frame 304 is arranged in the middle of the sliding frame 301, a swing motor 305 is arranged in the middle of the supporting frame 304, the output end of the swing motor 305 is connected with a driving rod 306, and a driving frame 309 matched with the driving rod 306 is arranged at the top of one group of sliding plates 307; the bottom of one side of the sliding frame 301 is provided with a through groove 310 which penetrates through, and the through grooves 310 on the two groups of sliding frames 301 are diagonally arranged; the slide plate 307 is also provided with a polishing motor 311, and the output end of the polishing motor 311 is connected with a polishing fan 312 penetrating through the through groove 310.

In this embodiment: in order to polish the members on the conveying mechanism 1 on both sides simultaneously and further improve the polishing effect, two sets of slide plates 307 are designed to be interlocked with each other. When the swing motor 305 and the grinding motor 311 are started, the grinding fan 312 also reciprocates along with the slide plate 307 while rotating.

Referring to fig. 1, a symmetrical mounting plate 110 is further disposed on a side surface of the support frame 103, a turnover motor 111 is mounted on the mounting plate 110, and an output end of the turnover motor 111 is connected with a turnover gear 112 matched with the gear ring 107.

In this embodiment: in order to perform the operation at different positions by integrally rotating the welding mechanism 2, the reversing motor 111 is mounted on the mounting plate 110.

Referring to fig. 8-10, a button 313 is mounted on an inner wall of one side of the sliding frame 301 far away from the through groove 310, a second fan 314 is mounted at the bottom of the sliding frame 301, and an output end of the second fan 314 is connected with a second nozzle 315 facing the conveying mechanism 1.

In this embodiment: during sanding, a large amount of debris may remain on the surfaces of the conveyor belt 102 and the components. In order to perform intermittent cleaning thereof, a button 313 is installed on one side inner wall of the slide frame 301. When the slide 307 moves inward along the slide frame 301, with the sharpening fan 312 away from the member, the side of the slide 307 activates the button 313 and the fan two 314.

Referring to fig. 1 and 3, a first fan 113 is installed at the opposite angle of the rotary base 105, and the output end of the first fan 113 is provided with a first self-opening spray pipe 114 positioned at two sides of the rotary base 105; a limiting plate 115 is arranged on the inner wall of the first spray pipe 114, a first spray hole 116 is arranged on the limiting plate 115, a limiting ring 117 is arranged at the outlet of the first spray pipe 114, a moving plate 118 is movably arranged between the limiting ring 117 and the limiting plate 115, a second spray hole 120 which is staggered with the first spray hole 116 is arranged on the moving plate 118, and the edge of the moving plate 118 is connected with the limiting ring 117 through a plurality of groups of reset springs 119.

In this embodiment: in some semi-finished components, when welded by the conveyor belt 102, a portion of slag is deposited on the component, so that a fan 113 is mounted at the diagonal of the rotating base 105 in order to avoid affecting the subsequent processing operations. When the fan I113 is turned on, the moving plate 118 moves outward along the nozzle I114 under the impact of the air flow, and the air flow blows the chips through the nozzle I116 and the nozzle II 120. When the fan I113 is closed, the movable plate 118 is tightly attached to the side surface of the limit plate 115 under the action of the return spring 119. Because the first orifice 116 and the second orifice 120 are offset, the limiting plate 115 shields the second orifice 120.

Referring to fig. 4-7, a telescopic cavity 208 is formed in a base 201, a telescopic arm 202 is movably arranged in the telescopic cavity 208, a rotating cavity 207 matched with the telescopic cavity 208 is formed in the side surface of the base 201, a rotating plug 204 is arranged in the rotating cavity 207, a meshing cavity 203 matched with the rotating plug 204 is formed in the side surface of the telescopic arm 202, a toothed plate 205 is arranged in the meshing cavity 203, and a telescopic gear 206 meshed with the toothed plate 205 is connected to the inner side of the rotating plug 204.

In this embodiment: in order to increase the degree of freedom of welding gun 214, an engagement cavity 203 which is engaged with a rotary plug 204 is formed in the side face of telescopic arm 202, and the length of telescopic arm 202 can be pre-adjusted by engagement of toothed plate 205 and telescopic gear 206 before the welding process.

Referring to fig. 5-6, a plurality of groups of slots 209 are formed in the inner wall of the rotating cavity 207, positioning springs 210 are installed in the slots 209, balls 211 are installed at the tops of the positioning springs 210, and a plurality of groups of grooves 212 matched with the balls 211 are formed in the side face of the rotating plug 204.

In this embodiment: in order to position the rotary plug 204, a plurality of sets of grooves 212 matching with the balls 211 are formed on the side surface of the rotary plug 204.

Referring to fig. 2 and 10, T-shaped blocks 108 are arranged on two sides of the rotating base 105, and a T-shaped groove 109 matched with the T-shaped blocks 108 is formed in the gear ring 107; sliding blocks 316 are arranged on two sides of the sliding frame 301, and sliding grooves 317 matched with the sliding blocks 316 are arranged on two sides of the sliding plate 307.

In this embodiment: in order to further improve the stability of the ring gear 107 when rotated, the ring gear 107 is rotatably mounted on the T-block 108 through the T-shaped groove 109. To further improve the stability of the slide 307 during movement, slide grooves 317 are provided on both sides of the slide 307, which cooperate with the slide blocks 316.

Referring to fig. 1, conveyor rolls 101 are connected by a conveyor belt 102.

In this embodiment: in order to convey the semi-product steel member and to perform position adjustment during welding, the conveying rollers 101 are connected by the conveying steel belt 102.

The working principle of the invention is as follows: in use, the apparatus is first placed onto the conveyor belt 102 with the semi-finished steel components to be treated and the location where the steel components are to be welded is moved by the conveyor belt 102 to the welding chamber 106. When welding, a part of the slag generated may accumulate on the member. When the fan I113 is turned on, the moving plate 118 moves outward along the nozzle I114 under the impact of the air flow, and the air flow blows the chips through the nozzle I116 and the nozzle II 120. The extent of projection of the gun 214 can be pre-adjusted by turning the plug 204 and by the toothed plate 205, as desired, prior to machining. And can reciprocate welding gun 214 with the cooperation of swing motor 219, swing arm 215 and swing groove 218. When the fan I113 is closed, the movable plate 118 is tightly attached to the side surface of the limit plate 115 under the action of the return spring 119. Because the first orifice 116 and the second orifice 120 are offset, the limiting plate 115 shields the second orifice 120. When the swing motor 305 and the polishing motor 311 are started, one group of sliding plates 307 simultaneously drives the sliding plate 307 on the other side to reciprocate under the cooperation of the driving frame 309 and the engagement portion 308, so that the polishing fan 312 on the side rotates and also reciprocates along with the sliding plate 307. When the slide 307 moves inward along the slide frame 301, with the sharpening fan 312 away from the member, the side of the slide 307 activates the button 313 and the fan two 314, and the nozzle two 315 cleans the conveying steel belt 102 and the surface of the member of the remaining sharpening debris.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a conveying formula welding process equipment, includes conveying mechanism (1), welding mechanism (2) and grinding machanism (3) of two sets of mutual symmetries, its characterized in that: the conveying mechanism (1) comprises two groups of symmetrical conveying rollers (101), two sides of the conveying rollers (101) are rotatably arranged on the supporting frames (103), a rotating seat (105) is arranged between the conveying rollers (101), and the rotating seat (105) is arranged between the supporting frames (103) on two sides through a supporting plate (104); a welding cavity (106) is formed in the middle of the rotating seat (105), gear rings (107) are rotatably arranged on two sides of the welding cavity (106), and the welding mechanism (2) is fixedly arranged on the gear rings (107); the welding mechanism (2) comprises a base (201) and a telescopic arm (202), an air cylinder (220) is connected to the bottom of the base (201), the welding mechanism (2) is fixedly connected to the gear ring (107) through the air cylinder (220), a swinging cavity (213) is formed in the telescopic arm (202), a swinging motor (219) is installed in the swinging cavity (213), the output end of the swinging motor (219) is connected with a swinging arm (216), a lug (217) is arranged on the swinging arm (216), a welding gun (214) is movably arranged on the side face of the telescopic arm (202), swinging arms (215) are connected to the two sides of the welding gun (214), the welding gun (214) is movably installed on the two sides of the telescopic arm (202) through the swinging arms (215), a swinging groove (218) matched with the lug (217) is formed in the bottom of the welding gun (214), and the swinging motor (219) drives the welding gun (214) to swing back and forth on a plane perpendicular to the rotating seat (105). The polishing mechanism (3) is arranged between the conveying mechanisms (1) on two sides, the polishing mechanism (3) comprises two groups of sliding frames (301) which are parallel to each other, a connecting plate (302) is fixedly arranged between the sliding frames (301), a linkage gear (303) is rotatably arranged on the connecting plate (302), a sliding plate (307) is movably arranged in the sliding frames (301), and a meshing part (308) matched with the linkage gear (303) is arranged on the side face of the sliding plate (307).

2. A conveyor welding process apparatus as in claim 1 wherein: the middle part of the sliding frame (301) is provided with a supporting frame (304), the middle part of the supporting frame (304) is provided with a swinging motor (305), the output end of the swinging motor (305) is connected with a driving rod (306), and the top of one group of sliding plates (307) is provided with a driving frame (309) matched with the driving rod (306); a through groove (310) penetrating through is formed in the bottom of one side of the sliding frame (301), and the through grooves (310) on the two groups of sliding frames (301) are diagonally arranged; and a polishing motor (311) is further arranged on the sliding plate (307), and the output end of the polishing motor (311) is connected with a polishing fan (312) penetrating through the through groove (310).

3. A conveyor welding process apparatus as in claim 1 wherein: the side of support frame (103) still is provided with symmetrical mounting panel (110), install upset motor (111) on mounting panel (110), the output of upset motor (111) be connected with ring gear (107) complex upset gear (112).

4. A conveyor welding process apparatus as claimed in claim 2, wherein: a button (313) is arranged on the inner wall of one side of the sliding frame (301) far away from the through groove (310), a second fan (314) is arranged at the bottom of the sliding frame (301), and the output end of the second fan (314) is connected with a second spray pipe (315) facing the conveying mechanism (1).

5. A conveyor welding process apparatus as in claim 1 wherein: a first fan (113) is arranged at the opposite angle of the rotating seat (105), and a self-opening spray pipe I (114) positioned at two sides of the rotating seat (105) is arranged at the output end of the first fan (113); be provided with limiting plate (115) on the inner wall of spray tube one (114), jet orifice one (116) have been seted up on limiting plate (115), the exit of spray tube one (114) is provided with spacing ring (117), activity is provided with movable plate (118) between spacing ring (117) and limiting plate (115), set up on movable plate (118) with jet orifice two (120) of jet orifice one (116) dislocation, the edge of movable plate (118) pass through multiunit reset spring (119) with spacing ring (117) are connected.

6. A conveyor welding process apparatus as in claim 1 wherein: the telescopic device is characterized in that a telescopic cavity (208) is formed in the base (201), the telescopic arm (202) is movably arranged in the telescopic cavity (208), a rotary cavity (207) matched with the telescopic cavity (208) is formed in the side face of the base (201), a rotary plug (204) is arranged in the rotary cavity (207), a meshing cavity (203) matched with the rotary plug (204) is formed in the side face of the telescopic arm (202), a toothed plate (205) is arranged in the meshing cavity (203), and a telescopic gear (206) meshed with the toothed plate (205) is connected to the inner side of the rotary plug (204).

7. The conveyor welding process apparatus of claim 6, wherein: the inner wall of the rotating cavity (207) is provided with a plurality of groups of grooves (209), a positioning spring (210) is arranged in the grooves (209), a ball (211) is arranged at the top of the positioning spring (210), and a plurality of groups of grooves (212) matched with the ball (211) are formed in the side face of the rotating plug (204).

8. A conveyor welding process apparatus according to any one of claims 1-4, wherein: t-shaped blocks (108) are arranged on two sides of the rotating seat (105), and T-shaped grooves (109) matched with the T-shaped blocks (108) are formed in the gear ring (107); sliding blocks (316) are arranged on two sides of the sliding frame (301), and sliding grooves (317) matched with the sliding blocks (316) are formed on two sides of the sliding plate (307).

9. A conveyor welding process apparatus according to any one of claims 1-4, wherein: the conveying rollers (101) are connected through a conveying steel belt (102).