CN117772966A - Stainless steel wire welding connection device - Google Patents

Abstract

The utility model provides a stainless steel wire welding connection device, belongs to wire welding technical field, including support body device, be provided with feed arrangement on the support body device, feed arrangement is used for feeding to stainless steel wire, is provided with shearing mechanism on the support body device, and shearing mechanism is used for cutting longer stainless steel wire, is provided with welding set on the support body device, and welding set is used for welding the connection to stainless steel wire. The feeding device provided by the invention can drive the recovered stainless steel wire to automatically feed, then the cutting device is used for cutting the overlong stainless steel wire, and the stainless steel wire with a shorter length is not cut, so that the length of the finally welded stainless steel wire is controlled within a certain range, and the subsequent use is convenient; the welding device can automatically drive the cut stainless steel wires to be butt welded, and meanwhile, the cut stainless steel wires to be welded are turned over through the turning friction wheel, so that the stainless steel wires are welded at three hundred and sixty degrees without dead angles, and the welding quality is high.

Description

Stainless steel wire welding connection device

Technical Field

The invention relates to the technical field of steel wire welding, in particular to a stainless steel wire welding connection device.

Background

Stainless steel wire is a material commonly used in production and construction, but is wasteful because the required length is different and the remainder of different length is often left. Therefore, the residual materials can be restored into usable materials through a welding mode, and the cylindricity of the stainless steel wire and the coaxiality of the welding are required during welding. The chinese patent application with publication number CN111774507a discloses an automatic welding machine for steel wires, which firstly feeds coils to a dislocation mechanism, then detects and eliminates unqualified coils, and the qualified coils are used for electric welding in a jig for exciting a welding module. However, this patent only works on the coil, and has a high reject rate, and cannot produce a stainless steel wire of a predetermined length.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a stainless steel wire welding connection device, includes support body device, support body device include the chassis, fixed mounting has the feeding case on the chassis, support body device be used for putting the stainless steel wire that waits to weld to appointed position, support body device on be provided with feed arrangement, feed arrangement include feeding motor, feed motor fixed mounting is on the feeding case, feed arrangement be used for carrying out the feeding to the stainless steel wire, support body device on be provided with shearing mechanism, shearing mechanism include the push pedal, push pedal slidable mounting is in the feeding case, shearing mechanism be used for cutting longer stainless steel wire, support body device on be provided with welding set, welding set include the bottom electric jar, bottom electric jar fixed mounting is on the chassis, welding set be used for carrying out the welding connection to the stainless steel wire.

The stainless steel wire is put into the device through the feeding device, the stainless steel wire is cut into small sections through the shearing device and then enters the frame body device, the short stainless steel wire can directly enter the frame body device, then the stainless steel wire enters the welding device, and the welding device is used for welding and continuing the stainless steel wire, so that the length of the welded stainless steel wire is kept in a certain range, and the stainless steel wire cannot be too long or too short, thereby being beneficial to subsequent use.

Further, the frame body device include fixed mounting in the electric jar on the chassis, rotate on the chassis and install the dwang, be provided with down the spout on the dwang, electric jar tip and dwang slidable mounting, fixed mounting has the feeding case on the feeding case.

Stainless steel wires fall into the underframe through the feeding box, and the electric cylinder stretches and contracts to drive the rotating rod to rotate around the underframe, so that the stainless steel wires falling from the feeding box are continuously stirred to the two sides of the underframe, and finally enter the welding device.

Further, the feeding device comprises a motor gear fixedly arranged on a motor shaft of a feeding motor, an upper roller and a lower roller are rotatably arranged on the feeding box, an upper gear is fixedly arranged on the upper roller, a lower gear is fixedly arranged on the lower roller, the upper gear is meshed with the lower gear, the upper gear is meshed with the motor gear, a stainless steel wire is placed in the feeding box, and a door opening mechanism is arranged on the feeding box.

Further, the door opening mechanism comprises an inner rotating plate which is rotatably arranged in the feeding box, an arc slope is arranged in the feeding box, the inner rotating plate slides along the arc slope, an upper pushing block is slidably arranged on the feeding box, a connecting rod is rotatably arranged on the upper pushing block, a lifting column is slidably arranged on the connecting rod, a lifting rod is fixedly arranged on the lifting column, the lifting rod is slidably arranged with the feeding box, an upper sensing sheet is fixedly arranged at the bottom of the lifting rod, and a lower sensing sheet is fixedly arranged on the feeding box.

The stainless steel wire is put into the feeding box from the feeding hopper, the stainless steel wire is pushed to rotate by the inner rotating plate, and reaches between the upper rolling shaft and the lower rolling shaft, the inner rotating plate rotates along the circular arc slope, after the inner rotating plate contacts with the upper pushing block, the upper pushing block is driven to ascend, the connecting rod is driven to rotate, the ascending column and the ascending rod are driven to descend, the upper sensing piece is driven to contact with the lower sensing piece, the feeding motor is started at the moment, the feeding motor rotates to drive the motor gear to rotate, the upper gear and the upper rolling shaft are driven to rotate, the lower gear and the lower rolling shaft are driven to rotate, the stainless steel wire is straightened through the upper rolling shaft and the lower rolling shaft, and the stainless steel wire is continuously conveyed forwards along the feeding box.

Further, shearing mechanism include slidable mounting push rod on the feeding case, push pedal and push rod fixed mounting are provided with the push pedal spring between push pedal and the feeding case, rotate on the push rod and install the bull stick, the bull stick rotates with the feeding case and installs, rotate on the bull stick and install the book pole, book pole and feeding case rotate and install, be provided with the ejector pad groove on the book pole, slidable mounting has interior ejector pad on the book pole, be provided with the ejector pad projection on the interior ejector pad, ejector pad projection slides in the ejector pad groove, interior ejector pad is gone up to rotate and is installed upper boom and lower pole, rotates on the upper boom and installs down the scissors, rotates on the lower pole and installs the scissors, lower scissors rotates with last scissors and installs, lower scissors and last scissors rotate with the feeding case.

When the upper roller and the lower roller move forward with the stainless steel wire, the stainless steel wire is positioned between the upper scissors and the lower scissors, after the stainless steel wire is contacted with the push plate, the push plate is pushed by the push plate, the push plate spring is extruded, so that the push rod is driven to slide, the rotary rod is driven to rotate, the folding rod is driven to rotate, the inner pushing block is driven to slide, the upper rod and the lower rod are driven to rotate, the lower scissors and the upper scissors are driven to rotate, the stainless steel wire is cut into small sections through the lower scissors and the upper scissors, the stainless steel wire with shorter length is not sheared and directly falls onto the bottom frame through the feeding box.

Further, welding set include slidable mounting at the carriage of chassis below, carriage and bottom jar top fixed mounting, fixed mounting has push pedal and preceding pin down on the carriage, rotates on the carriage and installs the outer pull rod, rotates on the outer pull rod and installs the slide bar, slide bar and chassis slidable mounting, fixed mounting has the baffle post on the slide bar, fixed mounting has welder on the bottom jar, slidable mounting has a bottom slide post on the chassis, is provided with a bottom slide spring between bottom slide post and the chassis, bottom slide post bottom fixed mounting has the sensor piece down in the chassis bottom fixed mounting, is provided with the stainless steel wire that waits to weld between preceding pin and the push pedal down, is provided with tilting mechanism on the chassis.

Further, the turnover mechanism comprises a turnover motor fixedly arranged on the underframe, a large friction wheel is fixedly arranged on a motor shaft of the turnover motor, the turnover friction wheel is rotatably arranged on the underframe, and the large friction wheel is matched with the turnover friction wheel through friction force.

The stainless steel wire to be welded after cutting is pulled onto the bottom sliding column through the rotating rod, the bottom sliding column is driven to descend along with the increase of the stainless steel wire to be welded on the bottom sliding column, the bottom sliding spring is compressed, the upper sensing piece descends, when the upper sensing piece is contacted with the lower sensing piece, the bottom electric cylinder is started at the moment, the bottom electric cylinder stretches to drive the sliding frame to slide, thereby driving the outer pull rod to rotate, thereby driving the sliding rod and the blocking column to slide outwards, the stainless steel wire to be welded at the lowest layer falls in front of the blocking column, then the bottom electric cylinder contracts, the blocking column is driven to slide inwards, the stainless steel wire to be welded is pushed out through the blocking column, the stainless steel wire to be welded at two sides is bonded, the front blocking rod is bonded with the stainless steel wire to be welded at the moment, the stainless steel wire to be welded is welded at the moment, the turnover motor is matched with the rotation of the upper sensing piece, the turnover friction wheel is driven to rotate, the stainless steel wire to be welded is welded at the moment, the whole is welded, the stainless steel wire to be welded is driven to be bonded, the inner wire is pushed out, the stainless steel wire is pushed out to be welded is bonded through the welding rod to the welding wire is stretched downwards when the bottom electric cylinder is stretched downwards, and the stainless steel wire is bonded.

The length of the stainless steel wires to be welded which are subjected to the shearing mechanism is certain, and the length of the stainless steel wires to be welded which are not directly dropped out by the shearing mechanism is shorter, so that the length of the continuous stainless steel wires formed by combining and connecting the two stainless steel wires to be welded is stable within a certain range.

Compared with the prior art, the invention has the beneficial effects that: (1) The feeding device provided by the invention can drive the recovered stainless steel wire to automatically feed, then the cutting device is used for cutting the overlong stainless steel wire, and the stainless steel wire with a shorter length is not cut, so that the length of the finally welded stainless steel wire is controlled within a certain range, and the subsequent use is convenient; (2) The welding device provided by the invention can automatically drive the cut stainless steel wires to be welded to be butt-welded, and meanwhile, the cut stainless steel wires to be welded are turned over through the turning friction wheel, so that the stainless steel wires are welded without dead angles in three hundred and sixty degrees, and the welding quality is high; (3) According to the rotating rod provided by the invention, the two stainless steel wires to be welded are respectively stirred to the two sides of the underframe, so that continuous welding is facilitated.

Drawings

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

Fig. 2 is a schematic structural diagram of a frame device according to the present invention.

Fig. 3 is a schematic diagram of a frame device according to a second embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a feeding device according to the present invention.

Fig. 5 is a schematic diagram of a feeding device according to a second embodiment of the present invention.

Fig. 6 is a schematic structural view of a shearing device according to the present invention.

Fig. 7 is a schematic structural diagram of a shearing device according to the present invention.

Fig. 8 is a schematic structural view of a welding device according to the present invention.

Fig. 9 is a schematic structural diagram of a welding device according to the second embodiment of the present invention.

Fig. 10 is a schematic diagram of a welding device according to the third embodiment of the present invention.

Fig. 11 is a schematic structural view of a welding device according to the present invention.

Reference numerals: 101-a chassis; 102-a feeding box; 1021-arc slope; 103-feeding hopper; 104-an electric cylinder; 105-turning a rod; 1051-lower chute; 201-an inner rotating plate; 202-pushing up the block; 203-a connecting rod; 204-lifting column; 205-lifting rod; 206-a feed motor; 207-motor gear; 208-upper gear; 209-upper roller; 210-a lower gear; 211-lower roller; 212-upper induction piece; 213-lower inductive pad; 214-stainless steel wire; 301-pushing plate; 302-a push plate spring; 303-push rod; 304-rotating rod; 305-folding the rod; 3051-pusher slot; 306-an inner pushing block; 3061-push block boss; 307-upper pole; 308-lower rod; 309-lower scissors; 310-cutting up scissors; 401-bottom electric cylinder; 402-a carriage; 403-pushing down plate; 404-an outer tie rod; 405-sliding bar; 406-a blocking column; 407-a turnover motor; 408-large friction wheel; 409-turning friction wheel; 410-welding gun; 411-stainless steel wire to be welded; 412-a bottom spool; 413-bottom slide springs; 414-loading a sensor chip; 415-lower sensor chip; 416-front stop lever.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Examples: referring to fig. 1-11, a stainless steel wire welding connection device comprises a frame device, wherein the frame device comprises a bottom frame 101, a feeding box 102 is fixedly installed on the bottom frame 101, the frame device is used for swinging stainless steel wires to be welded to a designated position, a feeding device is arranged on the frame device and comprises a feeding motor 206, the feeding motor 206 is fixedly installed on the feeding box 102 and is used for feeding the stainless steel wires, a shearing device is arranged on the frame device and comprises a push plate 301, the push plate 301 is slidably installed in the feeding box 102 and is used for shearing long stainless steel wires, a welding device is arranged on the frame device and comprises a bottom electric cylinder 401, the bottom electric cylinder 401 is fixedly installed on the bottom frame 101, and the welding device is used for welding the stainless steel wires.

The stainless steel wire is put into the device through the feeding device, the stainless steel wire is cut into small sections through the shearing device and then enters the frame body device, the short stainless steel wire can directly enter the frame body device, then the stainless steel wire enters the welding device, and the welding device is used for welding and continuing the stainless steel wire, so that the length of the welded stainless steel wire is kept in a certain range, and the stainless steel wire cannot be too long or too short, thereby being beneficial to subsequent use.

As shown in fig. 2 and 3, the frame device includes an electric cylinder 104 fixedly mounted on a chassis 101, a rotating rod 105 is rotatably mounted on the chassis 101, a lower chute 1051 is provided on the rotating rod 105, the end of the electric cylinder 104 is slidably mounted with the rotating rod 105, and a feeding box 102 is fixedly mounted on the feeding box 102.

Stainless steel wires fall into the underframe 101 through the feeding box 102, and the electric cylinder 104 stretches and contracts to drive the rotating rod 105 to rotate around the underframe 101, so that the stainless steel wires falling from the feeding box 102 are continuously stirred to two sides of the underframe 101, and finally enter the welding device.

As shown in fig. 4 and 5, the feeding device comprises a motor gear 207 fixedly installed on a motor shaft of a feeding motor 206, an upper roller 209 and a lower roller 211 are rotatably installed on the feeding box 102, an upper gear 208 is fixedly installed on the upper roller 209, a lower gear 210 is fixedly installed on the lower roller 211, the upper gear 208 is meshed with the lower gear 210, the upper gear 208 is meshed with the motor gear 207, a stainless steel wire 214 is placed in the feeding box 102, and a door opening mechanism is arranged on the feeding box 102.

As shown in fig. 4 and 5, the door opening mechanism comprises an inner rotating plate 201 rotatably installed in a feeding box 102, an arc slope 1021 is arranged in the feeding box 102, the inner rotating plate 201 slides along the arc slope 1021, an upward pushing block 202 is slidably installed on the feeding box 102, a connecting rod 203 is rotatably installed on the upward pushing block 202, a lifting column 204 is slidably installed on the connecting rod 203, a lifting rod 205 is fixedly installed on the lifting column 204, the lifting rod 205 is slidably installed with the feeding box 102, an upper sensing plate 212 is fixedly installed at the bottom of the lifting rod 205, and a lower sensing plate 213 is fixedly installed on the feeding box 102.

Stainless steel wires 214 are placed into the feeding box 102 from the feeding hopper 103, the stainless steel wires 214 push the inner rotary plate 201 to rotate and reach between the upper roller 209 and the lower roller 211, the inner rotary plate 201 rotates along the circular arc slope 1021, after the inner rotary plate 201 contacts with the upper push block 202, the upper push block 202 is driven to rise, the connecting rod 203 is driven to rotate, the lifting column 204 and the lifting rod 205 are driven to descend, the upper sensing piece 212 is driven to contact with the lower sensing piece 213, at the moment, the feeding motor 206 is started, the feeding motor 206 rotates to drive the motor gear 207 to rotate, the upper gear 208 and the upper roller 209 are driven to rotate, the lower gear 210 and the lower roller 211 are driven to rotate, the stainless steel wires 214 are straightened through the upper roller 209 and the lower roller 211, and the stainless steel wires 214 continue to be conveyed forwards along the feeding box 102.

As shown in fig. 6 and 7, the shearing device comprises a push rod 303 slidably mounted on a feeding box 102, a push plate 301 is fixedly mounted on the push rod 303, a push plate spring 302 is arranged between the push plate 301 and the feeding box 102, a rotary rod 304 is rotatably mounted on the push rod 303, the rotary rod 304 is rotatably mounted on the rotary rod 304, a folding rod 305 is rotatably mounted on the folding rod 305 and the feeding box 102, a push block groove 3051 is formed in the folding rod 305, an inner push block 306 is slidably mounted on the folding rod 305, a push block convex column 3061 is arranged on the inner push block 306, an upper rod 307 and a lower rod 308 are rotatably mounted on the inner push block 306, a lower scissors 309 is rotatably mounted on the upper rod 307, an upper scissors 310 is rotatably mounted on the lower rod 308, and lower scissors 309 and upper scissors 310 are rotatably mounted on the feeding box 102.

When the upper roller 209 and the lower roller 211 move forward with the stainless steel wire 214, the stainless steel wire 214 is positioned between the upper scissors 310 and the lower scissors 309, after the stainless steel wire 214 contacts the push plate 301, the push plate 301 is pushed by the push plate spring 302 to be extruded, so that the push rod 303 is driven to slide, the rotating rod 304 is driven to rotate, the folding rod 305 is driven to slide, the upper rod 307 and the lower rod 308 are driven to rotate, the lower scissors 309 and the upper scissors 310 are driven to rotate, the stainless steel wire 214 is cut into small sections through the lower scissors 309 and the upper scissors 310, the stainless steel wire 214 with a shorter length falls onto the underframe 101 through the feeding box 102 without being sheared.

As shown in fig. 8-11, the welding device includes a sliding frame 402 slidably mounted under the chassis 101, the sliding frame 402 is fixedly mounted on top of the bottom cylinder 401, a lower push plate 403 and a front stop lever 416 are fixedly mounted on the sliding frame 402, an outer pull rod 404 is rotatably mounted on the sliding frame 402, a sliding rod 405 is rotatably mounted on the outer pull rod 404, the sliding rod 405 is slidably mounted with the chassis 101, a blocking column 406 is fixedly mounted on the sliding rod 405, a welding gun 410 is fixedly mounted on the bottom cylinder 401, a bottom slide column 412 is slidably mounted on the chassis 101, a bottom slide spring 413 is arranged between the bottom slide column 412 and the chassis 101, an upper sensor plate 414 is fixedly mounted at the bottom of the bottom slide column 412, a lower sensor plate 415 is fixedly mounted at the bottom of the chassis 101, a stainless steel wire 411 to be welded is arranged between the front stop lever 416 and the lower push plate 403, and a turnover mechanism is arranged on the chassis 101.

As shown in fig. 8-11, the turnover mechanism comprises a turnover motor 407 fixedly installed on a chassis 101, a large friction wheel 408 is fixedly installed on a motor shaft of the turnover motor 407, a turnover friction wheel 409 is rotatably installed on the chassis 101, and the large friction wheel 408 is matched with the turnover friction wheel 409 through friction force.

The stainless steel wire 411 to be welded after cutting is shifted to the bottom slide column 412 through the rotating rod 105, the bottom slide column 412 is driven to descend along with the increase of the stainless steel wire 411 to be welded on the bottom slide column 412, the bottom slide spring 413 is compressed, the upper sensing piece 414 descends, when the upper sensing piece 414 is contacted with the lower sensing piece 415, the bottom electric cylinder 401 is started at the moment, the bottom electric cylinder 401 stretches to drive the sliding frame 402 to slide so as to drive the outer pull rod 404 to rotate, thereby driving the sliding rod 405 and the blocking column 406 to slide outwards, so that the stainless steel wire 411 to be welded at the lowest layer falls to the front of the blocking column 406, then the bottom electric cylinder 401 contracts to drive the blocking column 406 to slide inwards, the stainless steel wire 411 to be welded at two sides is pushed out through the blocking column 406, the stainless steel wire 411 to be welded is attached, meanwhile, the front blocking rod 416 is attached to the stainless steel wire 411 to be welded at the moment, the stainless steel wire 411 to be welded is matched with the rotating of the turnover motor 407, the turnover friction wheel 409 is driven to rotate through the large friction wheel, the turnover friction wheel is driven to rotate, the stainless steel wire 411 to be welded after the stainless steel wire to be welded, the stainless steel wire 411 is pushed out by the bottom cylinder to be welded, the stainless steel wire 411 is stretched, when the stainless steel wire to be welded to the stainless steel wire 411 is welded, and when the stainless steel wire to be welded to the two ends is stretched, and the stainless steel wire to be welded to be 411 is sequentially after being welded, and after the stainless steel wire is welded to be 411 is welded to and after being welded.

Because the length of the stainless steel wires 411 to be welded passing through the shearing mechanism is fixed, the length of the stainless steel wires 411 to be welded which are not directly dropped out by the shearing mechanism is shorter, so that the length of the continuous stainless steel wires formed by combining and connecting the two stainless steel wires 411 to be welded is stable within a certain range.

The invention discloses a stainless steel wire welding connection device, which has the working principle that: stainless steel wires 214 are placed into the feeding box 102 from the feeding hopper 103, the stainless steel wires 214 push the inner rotary plate 201 to rotate and reach between the upper roller 209 and the lower roller 211, the inner rotary plate 201 rotates along the circular arc slope 1021, after the inner rotary plate 201 contacts with the upper push block 202, the upper push block 202 is driven to rise, the connecting rod 203 is driven to rotate, the lifting column 204 and the lifting rod 205 are driven to descend, the upper sensing piece 212 is driven to contact with the lower sensing piece 213, at the moment, the feeding motor 206 is started, the feeding motor 206 rotates to drive the motor gear 207 to rotate, the upper gear 208 and the upper roller 209 are driven to rotate, the lower gear 210 and the lower roller 211 are driven to rotate, the stainless steel wires 214 are straightened through the upper roller 209 and the lower roller 211, and the stainless steel wires 214 continue to be conveyed forwards along the feeding box 102. When the upper roller 209 and the lower roller 211 move forward with the stainless steel wire 214, the stainless steel wire 214 is positioned between the upper scissors 310 and the lower scissors 309, after the stainless steel wire 214 contacts the push plate 301, the push plate 301 is pushed by the push plate spring 302 to be extruded, so that the push rod 303 is driven to slide, the rotating rod 304 is driven to rotate, the folding rod 305 is driven to slide, the upper rod 307 and the lower rod 308 are driven to rotate, the lower scissors 309 and the upper scissors 310 are driven to rotate, the stainless steel wire 214 is cut into small sections through the lower scissors 309 and the upper scissors 310, the stainless steel wire 214 with a shorter length falls onto the underframe 101 through the feeding box 102 without being sheared. The stainless steel wire 411 to be welded after cutting is shifted to the bottom slide column 412 through the rotating rod 105, the bottom slide column 412 is driven to descend along with the increase of the stainless steel wire 411 to be welded on the bottom slide column 412, the bottom slide spring 413 is compressed, the upper sensing piece 414 descends, when the upper sensing piece 414 is contacted with the lower sensing piece 415, the bottom electric cylinder 401 is started at the moment, the bottom electric cylinder 401 stretches to drive the sliding frame 402 to slide so as to drive the outer pull rod 404 to rotate, thereby driving the sliding rod 405 and the blocking column 406 to slide outwards, so that the stainless steel wire 411 to be welded at the lowest layer falls to the front of the blocking column 406, then the bottom electric cylinder 401 contracts to drive the blocking column 406 to slide inwards, the stainless steel wire 411 to be welded at two sides is pushed out through the blocking column 406, the stainless steel wire 411 to be welded is attached, meanwhile, the front blocking rod 416 is attached to the stainless steel wire 411 to be welded at the moment, the stainless steel wire 411 to be welded is matched with the rotating of the turnover motor 407, the turnover friction wheel 409 is driven to rotate through the large friction wheel, the turnover friction wheel is driven to rotate, the stainless steel wire 411 to be welded after the stainless steel wire to be welded, the stainless steel wire 411 is pushed out by the bottom cylinder to be welded, the stainless steel wire 411 is stretched, when the stainless steel wire to be welded to the stainless steel wire 411 is welded, and when the stainless steel wire to be welded to the two ends is stretched, and the stainless steel wire to be welded to be 411 is sequentially after being welded, and after the stainless steel wire is welded to be 411 is welded to and after being welded.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the technical scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (7)

1. The utility model provides a stainless steel wire welding connection device, includes support body device, its characterized in that: the frame body device include chassis (101), chassis (101) on fixed mounting have feeding case (102), the frame body device be used for with the stainless steel wire pendulum of waiting to weld to appointed position, the frame body device on be provided with feed arrangement, feed arrangement include feeding motor (206), feed motor (206) fixed mounting is on feeding case (102), feed arrangement be used for carrying out the feeding to the stainless steel wire, the frame body device on be provided with shearing mechanism, shearing mechanism include push pedal (301), push pedal (301) slidable mounting is in feeding case (102), shearing mechanism be used for cutting the stainless steel wire short, the frame body device on be provided with welding set, welding set include bottom electric jar (401), bottom electric jar (401) fixed mounting is on chassis (101), welding set be used for continuing to weld the stainless steel wire.

2. A stainless steel wire welding connection as defined in claim 1, wherein: the frame body device comprises an electric cylinder (104) fixedly arranged on a bottom frame (101), a rotating rod (105) is rotatably arranged on the bottom frame (101), a lower chute (1051) is arranged on the rotating rod (105), the end part of the electric cylinder (104) is slidably arranged on the rotating rod (105), and a feeding box (102) is fixedly arranged on a feeding box (102).

3. A stainless steel wire welding connection as defined in claim 2, wherein: the feeding device comprises a motor gear (207) fixedly arranged on a motor shaft of a feeding motor (206), an upper roller (209) and a lower roller (211) are rotatably arranged on a feeding box (102), an upper gear (208) is fixedly arranged on the upper roller (209), a lower gear (210) is fixedly arranged on the lower roller (211), the upper gear (208) is meshed with the lower gear (210), the upper gear (208) is meshed with the motor gear (207), a stainless steel wire (214) is arranged in the feeding box (102), and a door opening mechanism is arranged on the feeding box (102).

4. A stainless steel wire welding connection as defined in claim 3, wherein: the door opening mechanism comprises an inner rotating plate (201) rotatably installed in a feeding box (102), an arc slope (1021) is arranged in the feeding box (102), the inner rotating plate (201) slides along the arc slope (1021), an upper pushing block (202) is installed on the feeding box (102) in a sliding mode, a connecting rod (203) is installed on the upper pushing block (202) in a rotating mode, a lifting column (204) is installed on the connecting rod (203) in a sliding mode, a lifting rod (205) is fixedly installed on the lifting column (204), the lifting rod (205) is slidably installed with the feeding box (102), an upper sensing piece (212) is fixedly installed at the bottom of the lifting rod (205), and a lower sensing piece (213) is fixedly installed on the feeding box (102).

5. A stainless steel wire welding connection as defined in claim 1, wherein: the shearing device comprises a push rod (303) which is slidably mounted on a feeding box (102), a push plate spring (302) is fixedly mounted between the push plate (301) and the push rod (303), a rotating rod (304) is rotatably mounted on the push rod (303), a folding rod (305) is rotatably mounted on the rotating rod (304) and the feeding box (102), a push block groove (3051) is formed in the folding rod (305), an inner push block (306) is slidably mounted on the folding rod (305), a push block convex column (3061) is arranged on the inner push block (306), the push block convex column (3061) slides in the push block groove (3051), an upper rod (307) and a lower rod (308) are rotatably mounted on the inner push block (306), a lower scissors (309) are rotatably mounted on the upper rod (307), an upper scissors (310) are rotatably mounted on the lower rod (308), an inner scissors (309) are rotatably mounted on the upper scissors (310) and the lower scissors (310), and the upper scissors (102) are rotatably mounted on the lower scissors (306).

6. A stainless steel wire welding connection as defined in claim 1, wherein: the welding device comprises a sliding frame (402) which is slidably arranged below a chassis (101), wherein a bottom sliding spring (413) is arranged between the sliding frame (402) and the top of a bottom electric cylinder (401), a lower push plate (403) and a front stop lever (416) are fixedly arranged on the sliding frame (402), an outer pull rod (404) is rotatably arranged on the sliding frame (402), a sliding rod (405) is rotatably arranged on the outer pull rod (404), the sliding rod (405) is slidably arranged on the chassis (101), a blocking column (406) is fixedly arranged on the sliding rod (405), a welding gun (410) is fixedly arranged on the bottom electric cylinder (401), a bottom sliding spring (412) is arranged between the bottom sliding column (412) and the chassis (101), an upper sensing piece (414) is fixedly arranged at the bottom of the chassis (101), a stainless steel wire (411) to be welded is arranged between the front stop lever (416) and the lower push plate (403), and a turnover mechanism is arranged on the chassis (101).

7. The stainless steel wire welding connection as defined in claim 6, wherein: the turnover mechanism comprises a turnover motor (407) fixedly arranged on the underframe (101), a large friction wheel (408) is fixedly arranged on a motor shaft of the turnover motor (407), a turnover friction wheel (409) is rotatably arranged on the underframe (101), and the large friction wheel (408) is matched with the turnover friction wheel (409) through friction force.