CN117697202A - Full-automatic welding machine for stainless steel chains - Google Patents

Abstract

The invention discloses a full-automatic welding machine for stainless steel chains, which relates to the field of chain welding processing and comprises a processing table, wherein one side of the processing table is fixedly connected with two support rods, the tops of the two support rods are provided with a movable mechanism, the top of an inner cavity of the processing table is provided with a stepping mechanism, and one side of the processing table is provided with a feeding mechanism. According to the invention, when the guide block moves on the first fixing frame side through the driving of the air cylinder, the control rod and the first moving frame are driven to move, and then the first moving frame utilizes the movable hole on the inner side of the first limiting rod to drive the moving rod to start moving when the central rod moves, so that the welding equipment connected with one end of the moving rod is close to the stainless steel chain, and therefore, two welding equipment which are vertically arranged can weld two connected rings of the stainless steel chain, and therefore, the welding efficiency can be improved, and an operator is not required to adjust the position of the stainless steel chain.

Description

Full-automatic welding machine for stainless steel chains

Technical Field

The invention relates to the technical field of chain welding processing, in particular to a full-automatic welding machine for a stainless steel chain.

Background

The stainless steel chain is used as a common driving force device, friction force is reduced through the design of a double-curve arc chain, and the stainless steel chain is used in places with larger power and slower running speed, and has obvious advantages compared with belt driving, such as tanks and pneumatic compressors, and the common circular ring type chain needs to be welded on each circular ring in the processing process.

The patent numbers are as follows: the automatic chain welding machine of CN103639628B comprises a frame, wherein a positioning and clamping system, a transmission system, a welding system and an electric control system are arranged on the frame, the positioning and clamping system comprises a clamping cylinder, a first rotating rod and a second rotating rod, the left and right directions of the first rotating rod and the second rotating rod are coaxially and oppositely arranged, clamping plates are respectively arranged at the opposite ends of the second rotating rod and the first rotating rod, concentric positioning columns extending inwards are respectively arranged on the two clamping plates, and the left and right movement of the first rotating rod is controlled by the clamping cylinder; the transmission system comprises a motor and a chain driving mechanism, and the first rotating rod and the second rotating rod drive the motor and the chain driving mechanism to synchronously rotate; the welding system comprises a welding machine, a welding gun supporting frame, a welding gun supporting moving platform and a welding cylinder; the electric control system comprises a sensor, a travel controller and a counter.

However, in the prior art, when the ring type chain is welded, an operator generally operates the chain, so that the welding position of each ring corresponds to the welding machine and then is welded, and because the ring chain is formed by mutually staggering a plurality of rings, when each ring is welded, even if an automatic welding machine is adopted, the position of the ring needs to be manually adjusted, so that the welding efficiency is reduced, the potential safety hazard in the operation process is increased, and in addition, the stainless steel chain is easy to skew and offset due to the flexibility of the stainless steel chain in the welding process, so that the dislocation occurs in the welding process.

Disclosure of Invention

The invention aims to provide a full-automatic welding machine for a stainless steel chain, which aims to solve the problems that the position of a circular ring needs to be manually adjusted and the stainless steel chain is easy to be misplaced during welding in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the full-automatic welding machine for the stainless steel chain comprises a processing table, wherein one side of the processing table is fixedly connected with two supporting rods, the tops of the two supporting rods are provided with a movable mechanism, the top of an inner cavity of the processing table is provided with a stepping mechanism, and one side of the processing table is provided with a feeding mechanism;

the movable mechanism comprises a movable rod, a first movable frame and a first fixed frame, wherein two sides of one end of the first fixed frame are respectively fixedly provided with a second fixed frame, the inner cavity of the first fixed frame is slidably connected with a guide block, the first movable frame is slidably arranged in the inner cavity of the first fixed frame, two sides of the middle part of the first movable frame are respectively fixedly connected with a control rod, one end of the control rod is fixedly connected with the guide block, two ends of the first movable frame are respectively fixedly connected with a first limiting rod, the surface of the first limiting rod is provided with a movable hole, the inside of the movable hole is slidably connected with a center rod, one end of the movable rod is slidably connected with the first limiting rod, two ends of the center rod are respectively fixedly connected with the movable rod, and one end of the movable rod is fixedly connected with welding equipment;

the stepping mechanism comprises a fixed block and a moving plate, the bottom of the moving plate is fixedly connected with a second moving frame, one side of the fixed block is rotationally connected with a cam, one side of the bottom of the cam is rotationally connected with a driving rod, one end of the driving rod is rotationally connected with the second moving frame, the top of the moving plate is fixedly connected with a plurality of rotating frames, the inner side of the rotating frames is rotationally connected with a rotating sleeve, and the outer surface of the rotating sleeve is respectively fixedly connected with a pushing rod and a second limiting rod.

Preferably, a cylinder is fixedly arranged on one side of the first fixing frame, the output end of the cylinder is fixedly connected with the guide block, guide holes are formed in the top and the bottom of the first fixing frame, the guide block is slidably connected with the guide holes, and one end width of the guide block is larger than the width of the guide holes.

Preferably, a sliding block is fixedly connected to one side of the moving rod, a first sliding rail is slidably connected to the top end of the sliding block, and one side of the first sliding rail is fixedly connected with the side wall of the hollow sleeve.

Preferably, the first fixing frame is fixedly connected with a second sliding rail at the inner side, and the control rod is in sliding connection with the second sliding rail.

Preferably, the first fixing frame both sides all are provided with the second fixing frame, the hollow cover of equal fixedly connected with in second fixing frame both ends.

Preferably, the inner cavity of the hollow sleeve is slidably connected with a baffle, one side of the baffle is fixedly connected with a movable rod, one end of the movable rod penetrates through the hollow sleeve, and one end of the movable rod is fixedly connected with the welding equipment.

Preferably, the fixed block top and bottom backup pad, backup pad and processing platform fixed connection, fixed block one side fixed mounting has driving motor, driving motor output and cam one end fixed connection.

Preferably, the movable groove is formed in the top of the processing table, the track plate is fixedly connected to the inner wall of the processing table, the track plate is in sliding connection with the moving plate, the limiting hole is formed in the surface of the track plate, and the limiting hole is fixedly connected with the second moving frame.

Preferably, the feeding mechanism comprises a driving wheel and a synchronous wheel, both sides of the processing table are fixedly connected with brackets, the inner sides of the brackets are rotationally connected with rotating rods, one end of each rotating rod is fixedly connected with the driving wheel, and the other end of each rotating rod is fixedly connected with the driven wheel.

Preferably, a shell is fixedly connected to one side of the processing table, a synchronous belt is arranged on the inner side of the shell and is sleeved with a driving wheel and a driven wheel respectively, the driving wheel and the driven wheel are both rotationally connected with the inner wall of the shell, and a plurality of feeding rods are fixedly connected to the outer surface of the middle part of the rotating rod.

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

1. according to the invention, the guide block can drive the control rod and the first moving frame to move when the guide block moves on the inner side of the first fixing frame through the driving of the air cylinder, and then the first moving frame drives the moving rod to start moving when the center rod moves by utilizing the movable hole on the inner side of the first limiting rod, so that the welding equipment connected with one end of the moving rod is close to the stainless steel chain, and therefore, two welding equipment which are vertically arranged can weld two connected rings of the stainless steel chain, and therefore, the welding efficiency can be improved, and an operator is not required to adjust the position of the stainless steel chain.

2. According to the invention, when the driving motor is used for driving the cam to rotate, the driving rod is used for pushing the second moving frame and the moving plate to slide on the inner side of the track plate so as to control the rotating frames to move simultaneously, the rotating sleeve on the inner side of the rotating frame, the second limiting rod and the pushing rod can be used for pushing the stainless steel chain to move, so that the stainless steel chain can move step by utilizing the reciprocating motion of the moving plate, and the two welding devices can weld the rings on the surface of the stainless steel chain one by one conveniently.

3. According to the stainless steel chain feeding device, the synchronous belt is utilized to enable the driving wheel and the driven wheel to rotate simultaneously, and then the stainless steel chain is assisted to move by the feeding rod on the surface when the two rotating rods rotate, so that the stainless steel chain is fed stably, and the situation that the stainless steel chain is inclined and misplaced during feeding can be avoided.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a full-automatic welding machine for stainless steel chains;

FIG. 2 is a schematic view of a part of a full-automatic welding machine for stainless steel chains;

FIG. 3 is a schematic diagram showing the split structure of the movable mechanism in the full-automatic welding machine for stainless steel chains;

FIG. 4 is a schematic view of a part of the structure of a movable mechanism in a full-automatic welding machine for stainless steel chains;

FIG. 5 is a schematic view of a fully automatic welding machine for stainless steel chains;

FIG. 6 is a schematic view of a stepping mechanism in a full-automatic welding machine for stainless steel chains;

FIG. 7 is a schematic structural view of a feeding mechanism in a full-automatic welding machine for stainless steel chains;

FIG. 8 is a schematic view of the internal structure of a hollow sleeve of a full-automatic welding machine for stainless steel chains;

fig. 9 is a schematic diagram of a turret structure of a full-automatic welding machine for stainless steel chains.

In the figure: 1. a processing table; 11. a movable groove; 12. a support rod; 2. a movable mechanism; 21. a first moving frame; 22. a first stop lever; 221. a movable hole; 23. a moving rod; 231. a sliding block; 232. a central rod; 24. a first slide rail; 25. a control lever; 251. a second slide rail; 26. a guide block; 27. a first fixing frame; 271. a guide hole; 28. a cylinder; 29. the second fixing frame; 3. a step mechanism; 31. a fixed block; 311. a support plate; 32. a cam; 33. a driving rod; 34. a second moving frame; 35. a moving plate; 36. a rotating frame; 37. a rotating sleeve; 371. a push rod; 372. a second limit rod; 38. a track plate; 381. a limiting hole; 4. a feeding mechanism; 41. a bracket; 42. a rotating lever; 43. a feed rod; 44. driven wheel; 45. a synchronous belt; 46. a driving wheel; 5. a welding device; 51. a hollow sleeve; 52. a movable rod; 53. a baffle; 6. a driving motor; 7. a housing.

Description of the embodiments

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

Examples

Referring to fig. 1-6: a full-automatic welding machine for stainless steel chains comprises a processing table 1, wherein one side of the processing table 1 is fixedly connected with two support rods 12, the tops of the two support rods 12 are provided with a movable mechanism 2, the top of an inner cavity of the processing table 1 is provided with a stepping mechanism 3, and one side of the processing table 1 is provided with a feeding mechanism 4;

the movable mechanism 2 comprises a movable rod 23, a first movable frame 21 and a first fixed frame 27, wherein two sides of one end of the first fixed frame 27 are respectively fixedly provided with a second fixed frame 29, the inner cavity of the first fixed frame 27 is slidably connected with a guide block 26, the first movable frame 21 is slidably arranged in the inner cavity of the first fixed frame 27, two sides of the middle part of the first movable frame 21 are respectively fixedly connected with a control rod 25, one end of one control rod 25 is fixedly connected with the guide block 26, two ends of the first movable frame 21 are respectively fixedly connected with a first limiting rod 22, the surface of the first limiting rod 22 is provided with a movable hole 221, a center rod 232 is slidably connected inside the movable hole 221, one end of the movable rod 23 is slidably connected with the first limiting rod 22, two ends of the center rod 232 are respectively fixedly connected with the movable rod 23, and one end of the movable rod 23 is fixedly connected with welding equipment 5;

the step mechanism 3 comprises a fixed block 31 and a moving plate 35, the bottom of the moving plate 35 is fixedly connected with a second moving frame 34, one side of the fixed block 31 is rotationally connected with a cam 32, one side of the bottom end of the cam 32 is rotationally connected with a driving rod 33, one end of the driving rod 33 is rotationally connected with the second moving frame 34, the top of the moving plate 35 is fixedly connected with a plurality of rotating frames 36, the inner side of the rotating frames 36 is rotationally connected with a rotating sleeve 37, and the outer surface of the rotating sleeve 37 is respectively fixedly connected with a pushing rod 371 and a second limiting rod 372.

In this embodiment, when the cylinder 28 starts to operate, the guide block 26 is controlled to move, and the guide block 26 starts to slide inside the first fixing frame 27, so that the first moving frame 21 is pushed to move by the control rod 25 at one side, and the first moving frame 21 also slides inside the first moving frame 21. In this process, the two ends of the guide block 26 also slide inside the guide hole 271 on the surface of the first fixing frame 27, so that the width of the two ends of the guide block 26 is larger than the width of the guide hole 271, so as to ensure that no skew occurs in the sliding process. The first moving frame 21 is kept from being askew during moving, the control rod 25 also slides on the surface of the second sliding rail 251 during moving, and the bottom end of the control rod 25 is of a table structure, so that the control rod is limited by the second sliding rail 251 during moving, linear movement can be ensured, and separation of the control rod 25 and the second sliding rail 251 can be avoided.

Then, as the first moving frame 21 starts to slide inside the first fixed frame 27, the first moving frame 21 first pushes the center rod 232 with the first limiting rod 22, so that the moving rod 23 starts to move under the driving of the center rod 232, and in this process, the center rod 232 slides inside the movable hole 221, so that the moving rod 23 is limited by the center rod 232 and starts to move linearly. In this process, the sliding block 231 on one side of the moving rod 23 will also slide on the surface of the first sliding rail 24, and the sliding block 231 is also in a table-type structure, so that the sliding block 231 can only perform linear motion, and the moving rod 23 can be limited by the sliding block 231 when moving, and the situation of separation can not occur, so as to ensure the reliability after multiple operations.

Finally, as the first moving frame 21 starts to move, the two moving rods 23 start to move synchronously, and the two moving rods 23 are vertically arranged, so that two welding devices 5 can be controlled to approach two adjacent rings of the stainless steel chain, the two adjacent rings are welded simultaneously, when the welding devices 5 approach the stainless steel chain, the movable rods 52 are driven to slide in the hollow sleeve 51, and the baffle 53 is utilized to play a limiting role, so that the movable rods 52 cannot be separated from the hollow sleeve 51. In addition, as the welding of the two rings is completed, the rotation of the rotating sleeve 37 is utilized, and the second limiting rod 372 can play a limiting role, so that the pushing rod 371 does not rotate when pushing the stainless steel chain to move, and then the stainless steel chain is moved, so that the rings on the stainless steel chain are welded one by one.

Examples

As shown in fig. 2, 3, 4, 5, 6, 7 and 9, a cylinder 28 is fixedly mounted on one side of the first fixing frame 27, the output end of the cylinder 28 is fixedly connected with the guide block 26, guide holes 271 are formed in the top and bottom of the first fixing frame 27, the guide block 26 is slidably connected with the guide holes 271, and one end of the guide block 26 is wider than the guide holes 271. A sliding block 231 is fixedly connected to one side of the moving rod 23, a first sliding rail 24 is slidably connected to the top end of the sliding block 231, and one side of the first sliding rail 24 is fixedly connected with the side wall of the hollow sleeve 51. The inner side of the first fixing frame 27 is fixedly connected with a second sliding rail 251, and the control rod 25 is in sliding connection with the second sliding rail 251. The two sides of the first fixing frame 27 are respectively provided with a second fixing frame 29, and the two ends of the second fixing frame 29 are respectively fixedly connected with a hollow sleeve 51. The inner cavity of the hollow sleeve 51 is slidably connected with a baffle 53, one side of the baffle 53 is fixedly connected with a movable rod 52, one end of the movable rod 52 penetrates through the hollow sleeve 51, and one end of the movable rod 52 is fixedly connected with the welding equipment 5. The top and bottom support plates 311 of the fixed block 31, the support plates 311 are fixedly connected with the processing table 1, a driving motor 6 is fixedly arranged on one side of the fixed block 31, and the output end of the driving motor 6 is fixedly connected with one end of the cam 32. The movable groove 11 has been seted up at processing platform 1 top, and processing platform 1 inner wall fixedly connected with track board 38, track board 38 and movable plate 35 sliding connection, and track board 38 surface has seted up spacing hole 381, spacing hole 381 and second movable frame 34 fixed connection.

In this embodiment, when feeding the stainless steel chain, the driving motor 6 drives the cam 32 to rotate, so that one end of the cam 32 is the center of a circle, and the other end starts to perform circular motion, and then drives the driving rod 33 to start moving, and since the other end of the driving rod 33 is rotationally connected with the second moving frame 34, the second moving frame 34 will start to move back and forth under the control of the driving rod 33. In this process, the second moving frame 34 can only slide linearly inside the limiting hole 381, and the second moving frame 34 drives the moving plate 35 inside the track plate 38, so that the moving plate 35 can only move linearly under the limitation of the track plate 38. Then, the second moving frame 34 and the moving plate 35 can only reciprocate linearly under the control of the driving lever 33 due to the existence of the limiting hole 381 and the rail plate 38 during the movement.

Then, when the driving rod 33 applies a pushing force to the second moving frame 34, the pushing rod 371 pushes the stainless steel chain to move forward, at this time, since the second limiting rod 372 abuts against the moving plate 35, after the pushing rod 371 receives the reaction of the chain, the pushing rod 371 and the rotating sleeve 37 cannot rotate clockwise, so that the stainless steel chain can be smoothly controlled to start moving.

Then, the driving rod 33 pulls the second moving frame 34 to enable the moving plate 35 to start to reset, at this time, the pushing rod 371 is limited by the stainless steel chain, the rotating sleeve 37 and the second limiting rod 372 start to rotate anticlockwise, at this time, an included angle exists between the second limiting rod 372 and the pushing rod 371, the included angle between the pushing rod 371 and the moving plate 35 is not smaller than 45 degrees, the weight of the second limiting rod 372 is larger than that of the pushing rod 371, so that when the pushing rod 371 moves to a gap in the middle of the circular ring, a movable space exists in the pushing rod 371, the pushing rod 371 is not subjected to the acting force of the stainless steel chain, the second limiting rod 372 approaches to the moving plate 35 under the gravity factor, and accordingly the rotating sleeve 37 and the pushing rod 371 rotate clockwise, and the pushing rod 371 can be inserted into the gap in the middle of the circular ring.

Therefore, as the plurality of pushing rods 371 can be simultaneously inserted into the rings, and as the moving plate 35 is always in reciprocating motion, the stainless steel chain can be pushed to start moving, so that the feeding purpose is achieved, and the two welding devices 5 can be conveniently and gradually welded the rings on the stainless steel chain.

Examples

According to the figures 2 and 7, the feeding mechanism 4 comprises a driving wheel 46 and a synchronous wheel, the two sides of the processing table 1 are fixedly connected with a bracket 41, the inner side of the bracket 41 is rotatably connected with a rotating rod 42, one end of one rotating rod 42 is fixedly connected with the driving wheel 46, and one end of the other rotating rod 42 is fixedly connected with a driven wheel 44.

One side of the processing table 1 is fixedly connected with a shell 7, the inner side of the shell 7 is provided with a synchronous belt 45, the synchronous belt 45 is respectively sleeved with a driving wheel 46 and a driven wheel 44, the driving wheel 46 and the driven wheel 44 are both rotationally connected with the inner wall of the shell 7, and the outer surface of the middle part of the rotating rod 42 is fixedly connected with a plurality of feeding rods 43.

In this embodiment, when the stainless steel chain is moving, the rings at the two ends will be clamped on the feeding rod 43 on the surface of the rotating rod 42, and when the rings are moving, the feeding rod 43 will be pulled at the same time, so that the rotating rod 42 rotates. When one of the rotating rods 42 rotates, the driving wheel 46 is driven to rotate, and then the driven wheel 44 starts to rotate by the synchronous belt 45. Therefore, when the driving pulley 46 and the driven pulley 44 are rotated at the same time, the two turning levers 42 are rotated together, and the feeding assistance effect is achieved by the plurality of feeding levers 43 on the surface.

The application method and the working principle of the device are as follows: when welding the stainless steel chain, need weld the breach of every ring department, place a stainless steel chain on processing platform 1 this moment, then utilize welding equipment 5 to weld the ring, in the welding process, adopt step-by-step mechanism 3 control stainless steel chain removal.

At this time, the driving motor 6 drives the cam 32 to rotate, so that one end of the cam 32 is the center of a circle, and the other end starts to perform a circular motion, and then drives the driving rod 33 to start moving, and since the other end of the driving rod 33 is rotationally connected with the second moving frame 34, the second moving frame 34 will start to move back and forth under the control of the driving rod 33. In this process, the second moving frame 34 can only slide linearly inside the limiting hole 381, and the second moving frame 34 drives the moving plate 35 inside the track plate 38, so that the moving plate 35 can only move linearly under the limitation of the track plate 38. Then, the second moving frame 34 and the moving plate 35 can only reciprocate linearly under the control of the driving lever 33 due to the existence of the limiting hole 381 and the rail plate 38 during the movement.

When the driving rod 33 applies a pushing force to the second moving frame 34, the pushing rod 371 pushes the stainless steel chain to move forward, at this time, since the second limiting rod 372 abuts against the moving plate 35, after the pushing rod 371 receives the reaction of the chain, the pushing rod 371 and the rotating sleeve 37 cannot rotate clockwise, so that the stainless steel chain can be smoothly controlled to start moving.

Then, the driving rod 33 pulls the second moving frame 34 to enable the moving plate 35 to start to reset, at this time, the pushing rod 371 is limited by the stainless steel chain, the rotating sleeve 37 and the second limiting rod 372 start to rotate anticlockwise, at this time, an included angle exists between the second limiting rod 372 and the pushing rod 371, the included angle between the pushing rod 371 and the moving plate 35 is not smaller than the degree, the weight of the second limiting rod 372 is larger than that of the pushing rod 371, when the pushing rod 371 moves to a gap in the middle of the circular ring, the pushing rod 371 has a movable space, and is not subjected to the acting force of the stainless steel chain, the second limiting rod 372 approaches the moving plate 35 under the gravity factor, so that the rotating sleeve 37 and the pushing rod 371 rotate clockwise, and the pushing rod 371 can be inserted into the gap in the middle of the circular ring. Therefore, as the plurality of push rods 371 can be simultaneously inserted into the inside of the circular ring, and as the moving plate 35 is always reciprocated, the stainless steel chain can be pushed to start moving.

With the continuous movement of the stainless steel chain, the cylinder 28 can be used for controlling the two welding devices 5 to be far away from and close to the circular ring, so that the stainless steel chain can be welded conveniently, and the welding devices 5 can be prevented from influencing the movement of the stainless steel chain. In this process, the output end of the air cylinder 28 controls the guide block 26 to move, so that the guide block 26 starts to slide inside the first fixing frame 27, and thus the first moving frame 21 is pushed to move by the control rod 25 at one side, so that the first moving frame 21 also slides inside the first moving frame 21. In this process, the two ends of the guide block 26 also slide inside the guide hole 271 on the surface of the first fixing frame 27, so that the width of the two ends of the guide block 26 is larger than the width of the guide hole 271, so as to ensure that no skew occurs in the sliding process. The first moving frame 21 is kept from being askew during moving, the control rod 25 also slides on the surface of the second sliding rail 251 during moving, and the bottom end of the control rod 25 is of a table structure, so that the control rod is limited by the second sliding rail 251 during moving, linear movement can be ensured, and separation of the control rod 25 and the second sliding rail 251 can be avoided.

Then, as the first moving frame 21 starts to slide inside the first fixed frame 27, the first moving frame 21 first pushes the center rod 232 with the first limiting rod 22, so that the moving rod 23 starts to move under the driving of the center rod 232, and in this process, the center rod 232 slides inside the movable hole 221, so that the moving rod 23 is limited by the center rod 232 and starts to move linearly. In this process, the sliding block 231 on one side of the moving rod 23 will also slide on the surface of the first sliding rail 24, and the sliding block 231 is also in a table-type structure, so that the sliding block 231 can only perform linear motion, and the moving rod 23 can be limited by the sliding block 231 when moving, and the situation of separation can not occur, so as to ensure the reliability after multiple operations.

Finally, as the first moving frame 21 starts to move, the two moving rods 23 start to move synchronously, and the two moving rods 23 are vertically arranged, so that the two welding devices 5 can be controlled to approach two adjacent rings of the stainless steel chain, and the two adjacent rings are welded simultaneously.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The utility model provides a full-automatic welding machine of stainless steel chain, includes processing platform (1), two bracing pieces (12) of processing platform (1) one side fixedly connected with, its characterized in that: the top of the two supporting rods (12) is provided with a movable mechanism (2), the top of the inner cavity of the processing table (1) is provided with a stepping mechanism (3), and one side of the processing table (1) is provided with a feeding mechanism (4);

the movable mechanism (2) comprises a movable rod (23), a first movable frame (21) and a first fixed frame (27), wherein two sides of one end of the first fixed frame (27) are respectively fixedly provided with a second fixed frame (29), an inner cavity of the first fixed frame (27) is slidably connected with a guide block (26), the first movable frame (21) is slidably arranged in the inner cavity of the first fixed frame (27), two sides of the middle of the first movable frame (21) are respectively fixedly connected with a control rod (25), one end of the control rod (25) is fixedly connected with the guide block (26), two ends of the first movable frame (21) are respectively fixedly connected with a first limiting rod (22), movable holes (221) are formed in the surface of the first limiting rods (22), the inner parts of the movable holes (221) are slidably connected with center rods (232), one end of the movable rod (23) is slidably connected with the first limiting rods (22), two ends of the center rods (232) are respectively fixedly connected with the movable rods (23), and one end of the movable rod (23) is fixedly connected with welding equipment (5).

Step by step mechanism (3) are including fixed block (31) and movable plate (35), movable plate (35) bottom fixedly connected with second removes frame (34), fixed block (31) one side rotates and connects cam (32), cam (32) bottom one side rotates and connects actuating lever (33), actuating lever (33) one end and second remove frame (34) rotate and be connected, movable plate (35) top fixedly connected with a plurality of rotating frame (36), rotating frame (36) inboard rotates and is connected with rotating sleeve (37), rotating sleeve (37) surface fixedly connected with push rod (371) and second gag lever post (372) respectively.

2. The full-automatic welding machine for stainless steel chains according to claim 1, wherein: the novel air cylinder is characterized in that an air cylinder (28) is fixedly arranged on one side of the first fixing frame (27), the output end of the air cylinder (28) is fixedly connected with the guide block (26), guide holes (271) are formed in the top and the bottom of the first fixing frame (27), the guide block (26) is slidably connected with the guide holes (271), and one end of the guide block (26) is wider than the guide holes (271).

3. The full-automatic welding machine for stainless steel chains according to claim 1, wherein: the movable rod is characterized in that a sliding block (231) is fixedly connected to one side of the movable rod (23), a first sliding rail (24) is slidably connected to the top end of the sliding block (231), and one side of the first sliding rail (24) is fixedly connected with the side wall of the hollow sleeve (51).

4. The full-automatic welding machine for stainless steel chains according to claim 2, wherein: the inner side of the first fixing frame (27) is fixedly connected with a second sliding rail (251), and the control rod (25) is in sliding connection with the second sliding rail (251).

5. The full-automatic welding machine for stainless steel chains according to claim 4, wherein: the two sides of the first fixing frame (27) are respectively provided with a second fixing frame (29), and two ends of the second fixing frame (29) are respectively fixedly connected with a hollow sleeve (51).

6. The full-automatic welding machine for stainless steel chains according to claim 5, wherein: the inner cavity of the hollow sleeve (51) is slidably connected with a baffle plate (53), one side of the baffle plate (53) is fixedly connected with a movable rod (52), one end of the movable rod (52) penetrates through the hollow sleeve (51), and one end of the movable rod (52) is fixedly connected with the welding equipment (5).

7. The full-automatic welding machine for stainless steel chains according to claim 1, wherein: the device is characterized in that the top end and the bottom end of the fixed block (31) are respectively provided with a supporting plate (311), the supporting plates (311) are fixedly connected with the processing table (1), a driving motor (6) is fixedly installed on one side of the fixed block (31), and the output end of the driving motor (6) is fixedly connected with one end of the cam (32).

8. The full-automatic welding machine for stainless steel chains according to claim 1, wherein: the movable groove (11) has been seted up at processing platform (1) top, just processing platform (1) inner wall fixedly connected with track board (38), track board (38) and movable plate (35) sliding connection, just spacing hole (381) have been seted up on track board (38) surface, spacing hole (381) and second movable frame (34) fixed connection.

9. The full-automatic welding machine for stainless steel chains according to claim 1, wherein: the feeding mechanism (4) comprises a driving wheel (46) and a synchronous wheel, wherein the two sides of the processing table (1) are fixedly connected with a support (41), the inner side of the support (41) is rotationally connected with a rotating rod (42), one end of the rotating rod (42) is fixedly connected with the driving wheel (46), and the other end of the rotating rod (42) is fixedly connected with a driven wheel (44).

10. The full-automatic welding machine for stainless steel chains according to claim 9, wherein: the machining table is characterized in that a shell (7) is fixedly connected to one side of the machining table (1), a synchronous belt (45) is arranged on the inner side of the shell (7), the synchronous belt (45) is sleeved with a driving wheel (46) and a driven wheel (44) respectively, the driving wheel (46) and the driven wheel (44) are both rotationally connected with the inner wall of the shell (7), and a plurality of feeding rods (43) are fixedly connected to the outer surface of the middle of a rotating rod (42).