CN218017743U

CN218017743U - Flux cored wire surface finish treatment equipment

Info

Publication number: CN218017743U
Application number: CN202222123665.4U
Authority: CN
Inventors: 季铖艺
Original assignee: Tonglu Bobang Machinery Co ltd
Current assignee: Tonglu Bobang Machinery Co ltd
Priority date: 2022-08-12
Filing date: 2022-08-12
Publication date: 2022-12-13
Anticipated expiration: 2032-08-12

Abstract

The utility model discloses a flux cored wire surface finish treatment facility, it includes frame and welding wire, the top of frame is equipped with the opening, the opening part is equipped with the rotary drum structure from its one end to the other end in proper order, claw cage structure, vertical reciprocal silk structure and the horizontal reciprocal silk structure of wiping, the rotary drum structure all rotates with the frame with claw cage structure and is connected, sliding connection about vertical reciprocal silk structure and the frame, horizontal reciprocal silk structure and the horizontal sliding connection of wiping, the welding wire is the orthoscopic and runs through in the rotary drum structure in proper order, claw cage structure, vertical reciprocal silk structure and the horizontal reciprocal interior silk structure of wiping, the bottom of frame be equipped with respectively with the rotary drum structure, claw cage structure, vertical reciprocal silk structure and the corresponding collection dirt drawer of horizontal reciprocal silk structure of wiping, collection dirt drawer can dismantle with the frame and be connected. The utility model has the advantages that: the wire diameter is not easy to change greatly, and the purposes of facilitating the process of protecting the welding wire and improving the surface treatment effect of the welding wire are achieved.

Description

Flux cored wire surface finish treatment equipment

Technical Field

The utility model relates to a flux cored wire surface finish treatment facility correlation technique field especially indicates a flux cored wire surface finish treatment facility.

Background

In the process of processing and preparing metal wire rod products in industrial production units and the like, surface pretreatment such as degreasing, derusting, polishing and the like is generally required to be carried out on the surfaces of the metal wire rods.

Chinese patent publication No. CN211517171U, and the granted announcement date is 2020, 09, 18, discloses a metal wire surface treatment device, which comprises a box body, a sand blasting chamber, a cleaning chamber and a drying chamber, which are sequentially arranged in the box body from top to bottom, wherein a sand blasting device and a first guide mechanism are arranged in the sand blasting chamber, the first guide mechanism comprises a first guide roller, a second guide roller and a third guide roller, the first guide roller and the third guide roller are arranged at the bottom, the second guide roller is arranged between the first guide roller and the third guide roller and arranged at the upper part of the sand blasting chamber, the sand blasting device comprises a first sand blasting mechanism obliquely arranged between the first guide roller and the second guide roller, the second sandblast mechanism of slope setting between second guide roll and third guide roll, clean intracavity is equipped with first nip wheel, second nip wheel, sixth guide roll, seventh guide roll, first nip wheel and second nip wheel set up between sixth guide roll and seventh guide roll, be equipped with clean brush group between first nip wheel and the second nip wheel, the stoving chamber top is equipped with infrared heating device, and dehydrating unit is still connected to the stoving chamber, dehydrating unit includes first fan, dehumidifier, the play tuber pipe and the stoving chamber intercommunication of first fan, the stoving chamber passes through third pipeline intercommunication dehumidifier, the dehumidifier communicates with the air-supply line of first fan.

The metal wire is subjected to surface treatment in a reciprocating winding mode, so that the wire diameter is easily changed greatly, the welding wire protection process is not facilitated, meanwhile, the wire threading of workers is complicated, and the wire threading time is not shortened; in addition, still disclose in the above-mentioned patent that clean brush group is including the last brush and the lower brush that set up from top to bottom, only handle the welding wire surface through last brush and the lower brush that set up from top to bottom, unable abundant destruction welding wire surface's oxide layer, the surface treatment effect is not good, especially to the flux cored wire, can't effectively get rid of its surperficial grease and wire drawing powder.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome flux cored wire surface finish treatment facility among the prior art and be unfavorable for the protective welding wire technology and not good not enough to the welding wire surface treatment effect, provide a do benefit to protective welding wire technology and do benefit to the flux cored wire surface finish treatment facility that improves welding wire surface treatment effect.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the top of the machine frame is provided with an opening, the opening is sequentially provided with a rotary drum structure, a claw cage structure, a vertical reciprocating wire wiping structure and a transverse reciprocating wire wiping structure from one end to the other end of the opening, the rotary drum structure and the claw cage structure are both rotationally connected with the machine frame, the vertical reciprocating wire wiping structure is vertically connected with the machine frame in a sliding mode, the transverse reciprocating wire wiping structure is horizontally connected with the machine frame in a sliding mode, the welding wire sequentially penetrates through the rotary drum structure, the claw cage structure, the vertical reciprocating wire wiping structure and the transverse reciprocating wire wiping structure in a linear mode, a dust collection drawer corresponding to the rotary drum structure, the claw cage structure, the vertical reciprocating wire wiping structure and the transverse reciprocating wire wiping structure is arranged at the bottom of the machine frame, and the dust collection drawer is detachably connected with the machine frame.

The welding wire welding machine is characterized in that an opening is formed in the top of the rack, a rotary drum structure, a claw cage structure, a vertical reciprocating wire wiping structure and a transverse reciprocating wire wiping structure are sequentially arranged at the opening from one end to the other end of the opening, the rotary drum structure and the claw cage structure are rotationally connected with the rack, the vertical reciprocating wire wiping structure is in vertical sliding connection with the rack, the transverse reciprocating wire wiping structure is in horizontal sliding connection with the rack, a welding wire linearly and sequentially penetrates through the rotary drum structure, the claw cage structure, the vertical reciprocating wire wiping structure and the transverse reciprocating wire wiping structure, a dust collection drawer corresponding to the rotary drum structure, the claw cage structure, the vertical reciprocating wire wiping structure and the transverse reciprocating wire wiping structure is arranged at the bottom of the rack, and the dust collection drawer is detachably connected with the rack. The welding wire related to the utility model is mainly a flux-cored wire; after the welding wire is paid out from a pay-off machine and linearly passes through the multiple surface treatments of the rotary drum structure, the claw cage structure, the vertical reciprocating wire wiping structure and the transverse reciprocating wire wiping structure in sequence, the wire is taken up by a take-up machine, so that the wire diameter is not easily changed greatly, the purposes of protecting the welding wire process and improving the surface treatment effect of the welding wire are achieved, and grease and wire drawing powder on the surface of the flux-cored welding wire can be effectively removed; the threading of workers is facilitated through a linear threading mode, so that the threading time is shortened, and the working efficiency is improved; the dust collection drawers can be arranged singly or in multiple according to requirements and are used for collecting dust generated by the operation of the rotary drum structure, the claw cage structure, the vertical reciprocating wire wiping structure and the transverse reciprocating wire wiping structure respectively; the dust collection drawer is detachably connected with the rack so as to be beneficial to cleaning dust by an operator.

Preferably, the top of the rack is provided with a supporting plate, the supporting plate is fixedly connected with the side face of the opening and is perpendicular to the face where the opening is located, the length direction of the supporting plate is parallel to the length direction of a welding wire, two vertical plates which are perpendicular to the supporting plate are fixed at the opening, the vertical plates are located on one side of the supporting plate, the rotary drum structure comprises a rotary drum body and a first speed reduction motor, the first speed reduction motor is detachably connected with the other side corresponding to the supporting plate, the output end of the first speed reduction motor is connected with a belt of the rotary drum body, two ends of the rotary drum body penetrate through the two vertical plates respectively and are rotatably connected with the vertical plates under the driving of the first speed reduction motor, a spring brush is arranged in the rotary drum body and limited in the rotary drum body, the welding wire penetrates through the spring brush, a hollow structure is arranged on the side wall of the rotary drum body, and the interior of the rotary drum body is communicated with the interior of the dust collection drawer through the hollow structure. The rotary drum body is driven by the first speed reducing motor to rotate at a high speed of 460 r/min so as to drive the spring brush to rotate at a high speed to fully destroy an oxide layer on the surface of the welding wire, and generated dust falls into the dust collection drawer from the hollow structure to prevent the dust from accumulating in the rotary drum body and influencing the effect of the spring brush on removing the oxide layer.

Preferably, the claw cage structure includes claw cage body and gear motor two, gear motor two can dismantle with the corresponding opposite side of backup pad and be connected, gear motor two's output and claw cage body belt are connected, the opening part is fixed with two spinal branch supporting beams, can dismantle on the supporting beam and be connected with the bearing frame, the both ends of claw cage body all are equipped with the central siphon, the both ends of claw cage body are rotated through central siphon and corresponding bearing frame under gear motor two's drive and are connected, the welding wire runs through in central siphon and claw cage body, claw cage body is corresponding from top to bottom with collection dust drawer. The claw cage body is driven by a second speed reducing motor to rotate in the opposite direction of the rotary drum body at the rotating speed of 35r/min, and secondary scraping is carried out on the welding wires; the claw cage body corresponds to the dust collection drawer up and down, so that the generated dust falls into the dust collection drawer conveniently, and the collection and the cleaning of the dust are facilitated.

Preferably, the claw cage body comprises a rectangular frame and two claw bodies, the shaft tube is fixedly connected with the end of the rectangular frame, the claw bodies are located in the rectangular frame and comprise shaft rods, a plurality of arc claws and a plurality of elastic shafts are arranged on the shaft rods, the arc claws are uniformly distributed along the length direction of the shaft rods, the length direction of the shaft rods is parallel to the length direction of the welding wires, one ends of the elastic shafts are fixedly connected with the side walls of the shaft rods, the other ends of the elastic shafts are detachably connected with the side walls of the rectangular frame, the elastic shafts are located on the outer sides of the arc claws, steel wire balls are arranged on the inner sides of the arc claws, the arc claws on one claw body and the arc claws on the other claw body are crossed with each other to form a cage cavity, the steel wire balls are filled in the cage cavity, and the welding wires penetrate through the steel wire balls. In the rotating process, the arc claws on the two claw bodies slightly swing left and right under the shape following extrusion of the elastic shaft by means of gravity, so that the steel wire ball can be fully contacted with the welding wire, the secondary scraping effect of the welding wire is improved, and the phenomenon that the central axis of the steel wire ball forms a cavity when the welding wire passes through the center of the steel wire ball is effectively avoided, so that the steel wire ball cannot be contacted with the welding wire.

Preferably, the vertical reciprocating wire wiping structure comprises a third speed reduction motor and a vertical reciprocating wire wiping plate, a first eccentric wheel is arranged at the output end of the third speed reduction motor, the first eccentric wheel is located on one side of the supporting plate, the third speed reduction motor is detachably connected with the other side corresponding to the supporting plate, the output end of the third speed reduction motor penetrates through the supporting plate and is detachably connected with one side of the first eccentric wheel, a first connecting shaft is arranged on the other side corresponding to the first eccentric wheel, one end of the first connecting shaft is rotatably connected with one end of the eccentric wheel, a first roller is arranged on the side face of the other end of the first connecting shaft and is rotatably connected with one end of the connecting shaft, a first limiting frame is detachably connected to the vertical reciprocating wire wiping plate and is in vertical sliding connection with the supporting plate, the top of the first limiting frame is far away from the opening, the bottom of the first limiting frame is close to the opening, the first roller is located in the first limiting frame and is in rolling connection with the side wall of the top of the first limiting frame, the speed reduction motor is located between the top of the first limiting frame and the opening, the welding wire penetrates through the vertical reciprocating wire wiping plate, and the drawer are in vertical reciprocating wire wiping plate and the vertical dust collecting plate corresponding to each other. The speed reducing motor III drives the eccentric wheel I to rotate at a constant speed of 23r/min, and the eccentric wheel I drives the limiting frame I to slide up and down at a constant speed along the supporting plate through the connecting shaft I, so that the vertical reciprocating wire wiping plate can repeatedly wipe the surface of the welding wire in the vertical direction; the dust generated by scraping falls into the dust collection drawer, so that the dust is convenient to collect and clean.

Preferably, the vertical reciprocating filament wiping plate comprises a first clamping plate, a hollowed-out structure is arranged on the surface of the first clamping plate, the first clamping plate and the second clamping plate are parallel to each other and are detachably connected, two pieces of scouring pad which are mutually attached are arranged between the first clamping plate and the second clamping plate, the two pieces of scouring pad are fixedly connected with the first clamping plate respectively, the welding wire penetrates through the two pieces of scouring pad, one side of the first clamping plate is fixedly connected with the scouring pad, and the other corresponding side of the first clamping plate is detachably connected with the first limiting frame. In the process that the third speed reduction motor drives the first limiting frame to slide up and down along the supporting plate at a constant speed, the two pieces of scouring pad slide up and down at a constant speed relative to the welding wire, so that the front side surface and the rear side surface of the welding wire are scraped and polished, and the surface of the treated welding wire is bright and has no scratch; the surface of the first clamping plate is provided with a hollow structure, so that dust generated by polishing can fall into the dust collection drawer conveniently.

Preferably, the transverse reciprocating wire wiping structure comprises a fourth speed reduction motor and a transverse reciprocating wire wiping plate, a mounting plate is detachably mounted on the other side corresponding to the support plate, the mounting plate is parallel to the surface where the opening is located, the fourth speed reduction motor is detachably connected with one side of the mounting plate, a second eccentric wheel is arranged on the output end of the fourth speed reduction motor, the second eccentric wheel is located on the other side corresponding to the mounting plate, the output end of the fourth speed reduction motor penetrates through the mounting plate and is detachably connected with one side of the second eccentric wheel, a second connecting shaft is arranged on the other side corresponding to the second eccentric wheel, one end of the second connecting shaft is rotatably connected with the second eccentric wheel, a second roller is arranged on the side of the other end of the second connecting shaft, the other end of the second connecting shaft penetrates through the support plate and is rotatably connected with the second roller, a second limiting frame is detachably connected to the transverse reciprocating wire wiping plate, a sliding rail is arranged on the support plate, the end portion of the sliding rail is detachably connected with the support plate and is perpendicular to the support plate, the overhead sliding rail is located at the opening, the transverse reciprocating wire wiping plate is horizontally slidably connected to the second limiting frame through the second roller, one side of the reciprocating wire wiping plate, and penetrates through the reciprocating wire wiping plate and corresponds to the upper reciprocating dust collecting drawer. The speed reducing motor IV drives the eccentric wheel II to rotate at a constant speed of 23r/min, and the eccentric wheel II drives the limiting frame II to transversely slide along the supporting plate at a constant speed through the connecting shaft II so as to be beneficial to realizing repeated scraping of the transverse reciprocating wire wiping plate on the surface of the welding wire in the horizontal direction; the dust generated by scraping falls into the dust collection drawer, so that the dust is convenient to collect and clean.

Preferably, the transverse reciprocating filament wiping plate comprises two clamp plates II, hollow structures are arranged on the surfaces of the clamp plates II, one clamp plate II is parallel to the other clamp plate II and is detachably connected with the other clamp plate II, two felts which are attached to each other are arranged between the two clamp plates II, the two felts are fixedly connected with the two clamp plates respectively, the welding wire penetrates between the two felts, one side of one clamp plate II is fixedly connected with the felts, and the other corresponding side of the clamp plate II is detachably connected with the limiting frame II. In the process that the speed reduction motor IV drives the limiting frame II to transversely slide at a constant speed, the two felts transversely slide at a constant speed relative to the welding wire, so that the scraping and polishing treatment on the upper side surface and the lower side surface of the welding wire is facilitated, and the surface of the treated welding wire is bright and has no scratch; the surface of the clamping plate II is provided with a hollow structure, so that dust generated by polishing can conveniently fall into the dust collection drawer.

The utility model has the advantages that: the wire diameter is not easy to change greatly, the purposes of protecting the welding wire process and improving the surface treatment effect of the welding wire are achieved, and grease and wire drawing powder on the surface of the flux-cored wire can be effectively removed; the threading of workers is facilitated through a linear threading mode, so that the threading time is shortened, and the working efficiency is improved; the dust can be cleaned by an operator; the arc claws on the two claw bodies slightly swing left and right under the shape following extrusion of the elastic shaft by means of gravity, so that the steel wire ball can be fully contacted with the welding wire, the secondary scraping effect of the welding wire is improved, and the phenomenon that the central axis of the steel wire ball forms a cavity when the welding wire penetrates through the center of the steel wire ball is effectively avoided, so that the steel wire ball cannot be contacted with the welding wire; so that the surface of the treated welding wire is bright and has no scratch.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is an enlarged view of the structure at A in FIG. 1;

fig. 4 is an enlarged view of the structure at B in fig. 2.

In the figure: 1. the welding wire cleaning machine comprises a machine frame, 2 welding wires, 3 openings, 4 rotating cylinder structures, 5 claw cage structures, 6 vertical reciprocating wire wiping structures, 7 transverse reciprocating wire wiping structures, 8 dust collection drawers, 9 supporting plates, 10 risers, 11 rotating cylinder bodies, 12 speed reduction motors I, 13 claw cage bodies, 14 speed reduction motors II, 15 supporting beams, 16 bearing blocks, 17 shaft tubes, 18 rectangular frames, 19 claw bodies, 20 shaft rods, 21 arc-shaped claws, 22 speed reduction motors III, 23 vertical reciprocating wire wiping plates, 24 eccentric wheels I, 25 connecting shafts I, 26 rollers I, 27 limiting frames I, 28 clamping plates I, 29 speed reduction motors IV, 30 transverse reciprocating wire wiping plates, 31 mounting plates, 32 eccentric wheels II, 33 connecting shafts II, 34 roller wheels II, 35 limiting frames II, 36 sliding rails and 37 clamping plates.

Detailed Description

The invention is further described with reference to the accompanying drawings and the detailed description.

In the embodiment shown in fig. 1 and 2, the flux-cored wire surface polishing treatment equipment comprises a rack 1 and a welding wire 2, wherein an opening 3 is formed in the top of the rack 1, a rotary drum structure 4, a claw cage structure 5, a vertical reciprocating wire wiping structure 6 and a transverse reciprocating wire wiping structure 7 are sequentially arranged at the opening 3 from one end to the other end of the opening, the rotary drum structure 4 and the claw cage structure 5 are rotatably connected with the rack 1, the vertical reciprocating wire wiping structure 6 is vertically and slidably connected with the rack 1, the transverse reciprocating wire wiping structure 7 is horizontally and slidably connected with the rack 1, the welding wire 2 sequentially penetrates through the rotary drum structure 4, the claw cage structure 5, the vertical reciprocating wire wiping structure 6 and the transverse reciprocating wire wiping structure 7 in a linear mode, a dust collection drawer 8 corresponding to the rotary drum structure 4, the claw cage structure 5, the vertical reciprocating wire wiping structure 6 and the transverse reciprocating wire wiping structure 7 is arranged at the bottom of the rack 1, and the dust collection drawer 8 is detachably connected with the rack 1.

The top of frame 1 is equipped with backup pad 9, backup pad 9 and opening 3's side fixed connection and with opening 3 place face mutually perpendicular, the length direction of backup pad 9 is parallel to each other with the length direction of welding wire 2, opening 3 department is fixed with two riser 10 all with backup pad 9 mutually perpendicular, riser 10 is located one side of backup pad 9, rotary drum structure 4 includes rotary drum body 11 and gear motor 12, gear motor 12 can be dismantled with the corresponding opposite side of backup pad 9 and be connected, gear motor 12's output and rotary drum body 11 belt are connected, rotary drum body 11's both ends are run through two riser 10 respectively and are rotated with riser 10 under gear motor 12's drive and are connected, be equipped with the spring brush in rotary drum body 11, the spring brush is spacing in rotary drum body 11, welding wire 2 runs through in the spring brush, be equipped with hollow out construction on rotary drum body 11's the lateral wall, rotary drum body 11's inside is linked together through hollow out construction and collection dirt drawer 8's inside.

The claw cage structure 5 comprises a claw cage body 13 and a second reducing motor 14, the second reducing motor 14 is detachably connected with the corresponding other side of the supporting plate 9, the output end of the second reducing motor 14 is connected with a belt of the claw cage body 13, the opening 3 is fixed with two supporting beams 15, the supporting beams 15 are detachably connected with bearing seats 16, two ends of the claw cage body 13 are respectively provided with an axle tube 17, two ends of the claw cage body 13 are rotatably connected with the corresponding bearing seats 16 through the axle tubes 17 under the driving of the second reducing motor 14, the welding wire 2 runs through the axle tubes 17 and the claw cage body 13, and the claw cage body 13 corresponds to the dust collection drawer 8 up and down.

The claw cage body 13 comprises a rectangular frame 18 and two claw bodies 19, the end part of the shaft tube 17 is fixedly connected with the end part of the rectangular frame 18, the claw bodies 19 are positioned in the rectangular frame 18, each claw body 19 comprises a shaft rod 20, a plurality of arc claws 21 and a plurality of elastic shafts are arranged on the shaft rod 20, the arc claws 21 are uniformly distributed along the length direction of the shaft rod 20, the length direction of the shaft rod 20 is parallel to the length direction of the welding wire 2, one end of each elastic shaft is fixedly connected with the side wall of the shaft rod 20, the other end of each elastic shaft is detachably connected with the side wall of the rectangular frame 18, each elastic shaft is positioned outside the arc claws 21, steel wire balls are arranged inside the arc claws 21, a plurality of arc claws 21 on one of the claw bodies 19 and a plurality of arc claws 21 on the other claw body 19 are crossed with each other to form a cage cavity, the steel wire balls are filled in the cage cavity, and the welding wire 2 penetrates through the steel wire balls.

As shown in fig. 3 and 4, the vertical reciprocating wire wiping structure 6 comprises a third speed reduction motor 22 and a vertical reciprocating wire wiping plate 23, an eccentric wheel one 24 is arranged on an output end of the third speed reduction motor 22, the eccentric wheel one 24 is positioned on one side of the supporting plate 9, the third speed reduction motor 22 is detachably connected with the other side corresponding to the supporting plate 9, the output end of the third speed reduction motor 22 penetrates through the supporting plate 9 and is detachably connected with one side of the eccentric wheel one 24, a connecting shaft one 25 is arranged on the other side corresponding to the eccentric wheel one 24, one end of the connecting shaft one 25 is rotatably connected with the eccentric wheel one 24, a roller one 26 is arranged on the other side surface of the connecting shaft one 25 and is rotatably connected with the connecting shaft one 25, a first limit frame 27 is detachably connected on the vertical reciprocating wire wiping plate 23, the first limit frame 27 is slidably connected with the supporting plate 9 up and down, the top of the first limit frame 27 is far away from the opening 3, the bottom of the first limit frame 27 is close to the opening 3, the roller one 26 is positioned in the limit frame one 27 and is rotatably connected with the side wall of the top of the limit frame one 27, the third speed reduction motor 22 is positioned between the top of the opening 3 and the vertical reciprocating wire wiping plate 2, the vertical reciprocating wire wiping plate 23 and corresponds to the dust collecting drawer 8.

The vertical reciprocating wire wiping plate 23 comprises two first clamping plates 28, the surface of the first clamping plate 28 is provided with a hollow structure, one first clamping plate 28 and the other first clamping plate 28 are parallel to each other and can be detachably connected, two pieces of cleaning cloth which are mutually attached are arranged between the first clamping plates 28, the two pieces of cleaning cloth are respectively fixedly connected with the first clamping plates 28, the welding wire 2 penetrates between the two pieces of cleaning cloth, one side of one first clamping plate 28 is fixedly connected with the cleaning cloth, and the other corresponding side of the one clamping plate 28 is detachably connected with a first limiting frame 27.

The transverse reciprocating wire wiping structure 7 comprises a fourth speed reducing motor 29 and a transverse reciprocating wire wiping plate 30, a mounting plate 31 is detachably mounted on the other side corresponding to the support plate 9, the mounting plate 31 is parallel to the surface where the opening 3 is located, the fourth speed reducing motor 29 is detachably connected with one side of the mounting plate 31, a second eccentric wheel 32 is arranged on the output end of the fourth speed reducing motor 29, the second eccentric wheel 32 is located on the other side corresponding to the mounting plate 31, the output end of the fourth speed reducing motor 29 penetrates through the mounting plate 31 and is detachably connected with one side of the second eccentric wheel 32, a second connecting shaft 33 is arranged on the other side corresponding to the second eccentric wheel 32, one end of the second connecting shaft 33 is rotatably connected with the second eccentric wheel 32, a second roller 34 is arranged on the side of the other end of the second connecting shaft 33, the other end of the second connecting shaft 33 penetrates through the support plate 9 and is rotatably connected with the second roller 34, a second limiting frame 35 is detachably connected to the transverse reciprocating wire wiping plate 30, a sliding rail 36 is arranged on the support plate 9, the end of the sliding rail 36 is detachably connected with the support plate 9 and is perpendicular to the support plate 9, the sliding rail 36, the transverse reciprocating wire wiping plate 30 is located in the opening 3, the side, the reciprocating wiping plate 30 is close to the lower limiting frame 35, and is close to the side of the reciprocating wire wiping plate 9, and is close to the side of the reciprocating wiping plate 9, and close to the reciprocating wiping plate 30, and close to the reciprocating wiping plate 9, and close to the side of the reciprocating wiping plate 30.

The transverse reciprocating silk wiping plate 30 comprises two clamp plates 37, the surface of the two clamp plates 37 is provided with a hollow structure, one of the two clamp plates 37 is parallel to the other of the two clamp plates 37 and is detachably connected with the other of the two clamp plates 37, two felts which are mutually attached are arranged between the two clamp plates 37, the two felts are respectively fixedly connected with the two clamp plates 37, a welding wire 2 penetrates between the two felts, one side of one of the two clamp plates 37 is fixedly connected with the felts, and the other corresponding side of the one clamp plate is detachably connected with the two limiting frames 35.

The welding wire related to the utility model is mainly a flux-cored wire; the utility model relates to a scheme is equipped with four group altogether and wipes a device, is rotary drum structure 4, claw cage structure 5, vertical reciprocal silk structure 6 and the horizontal reciprocal silk structure 7 of wiping respectively, and preceding two sets of silk of wiping for the rotation, and the back is two sets of reciprocal silk of wiping.

The welding wire 2 firstly passes through the first group of drum structures 4, and the drum body 11 is driven by the first speed reducing motor 12 to rotate at a high speed of 460 r/min so as to drive the spring brush to rotate at a high speed to fully destroy an oxide layer on the surface of the welding wire 2; then the steel wire ball enters a second group of claw cage structures 5 rotating in the opposite direction, the claw cage bodies 13 rotate in the opposite direction of the rotary drum body 11 at the rotating speed of 35r/min under the driving of a second speed reducing motor 14, in the rotating process, the arc-shaped claws 21 on the two claw bodies 19 slightly swing left and right under the shape following extrusion of the elastic shaft by means of gravity, so that the steel wire ball in the cage cavity can be fully contacted with the welding wire 2, the secondary scraping effect of the welding wire 2 is improved, and the phenomenon that the central axis of the steel wire ball forms a cavity when the welding wire 2 passes through the center of the steel wire ball is effectively avoided, and the steel wire ball cannot be contacted with the welding wire 2; then the welding wire enters a third group of vertical reciprocating wire wiping structures 6, a third speed reduction motor 22 drives a first eccentric wheel 24 to rotate at a constant speed of 23r/min, the first eccentric wheel 24 drives a first limiting frame 27 to slide vertically at a constant speed through a first connecting shaft 25, and two pieces of scouring pads slide vertically at a constant speed relative to the welding wire 2, so that the front side surface and the rear side surface of the welding wire 2 are scraped and polished, and the surface of the treated welding wire 2 is bright and has no scratch; and finally, the wire enters a fourth group of transverse reciprocating wire wiping structures 7, a fourth speed reducing motor 29 drives a second eccentric wheel 32 to rotate at a constant speed of 23r/min, the second eccentric wheel 32 drives a second limiting frame 35 to transversely slide along the supporting plate 9 at a constant speed through a second connecting shaft 33, and in the process, the two wool felts transversely slide at a constant speed relative to the welding wire 2, so that the scraping and polishing treatment on the upper side surface and the lower side surface of the welding wire 2 is facilitated, and the surface of the treated welding wire 2 is bright and has no scratch. The wiped dust and impurities are collected in the drawer at the bottom for cleaning, and the floating dust is discharged from the dust suction port.

Claims

1. The utility model provides a flux cored wire surface finish treatment facility, characterized by, includes frame (1) and welding wire (2), the top of frame (1) is equipped with opening (3), opening (3) department is equipped with rotary drum structure (4), claw cage structure (5), vertical reciprocal wire wiping structure (6) and horizontal reciprocal wire wiping structure (7) in proper order from its one end to the other end, rotary drum structure (4) all rotate with frame (1) with claw cage structure (5) and are connected, sliding connection about vertical reciprocal wire wiping structure (6) and frame (1), horizontal reciprocal wire wiping structure (7) and frame (1) horizontal sliding connection, welding wire (2) are the orthoscopic and run through in rotary drum structure (4), claw cage structure (5), vertical reciprocal wire wiping structure (6) and horizontal reciprocal wire wiping structure (7) in proper order, the bottom of frame (1) is equipped with rotary drum structure (4), claw cage structure (5), reciprocal wire wiping structure (6) and horizontal reciprocal wire wiping structure (7) corresponding drawer respectively and dust collection drawer (8) frame (1) can dismantle the connection.

2. The flux cored wire surface polishing treatment device as set forth in claim 1, the top of the frame (1) is provided with a supporting plate (9), the supporting plate (9) is fixedly connected with the side surface of the opening (3) and is vertical to the surface of the opening (3), the length direction of the supporting plate (9) is parallel to the length direction of the welding wire (2), two vertical plates (10) which are vertical to the supporting plate (9) are fixed at the opening (3), the vertical plate (10) is positioned on one side of the supporting plate (9), the rotary drum structure (4) comprises a rotary drum body (11) and a first speed reducing motor (12), the first speed reducing motor (12) is detachably connected with the other side corresponding to the support plate (9), the output end of the first speed reducing motor (12) is connected with the belt of the rotary drum body (11), two ends of the drum body (11) respectively penetrate through the two vertical plates (10) and are rotationally connected with the vertical plates (10) under the driving of the speed reducing motor I (12), the spring brush is arranged in the rotary drum body (11) and is limited in the rotary drum body (11), the welding wire (2) penetrates through the spring brush, a hollow structure is arranged on the side wall of the rotary drum body (11), the interior of the rotary drum body (11) is communicated with the interior of the dust collection drawer (8) through a hollow structure.

3. The flux-cored wire surface polishing treatment equipment as claimed in claim 2, wherein the claw cage structure (5) comprises a claw cage body (13) and a second reducing motor (14), the second reducing motor (14) is detachably connected with the other side corresponding to the support plate (9), the output end of the second reducing motor (14) is connected with the claw cage body (13) through a belt, two support beams (15) are fixed at the opening (3), bearing seats (16) are detachably connected to the support beams (15), shaft tubes (17) are arranged at two ends of the claw cage body (13), two ends of the claw cage body (13) are rotatably connected with the corresponding bearing seats (16) through the shaft tubes (17) under the driving of the second reducing motor (14), the welding wire (2) penetrates through the shaft tubes (17) and the claw cage body (13), and the claw cage body (13) corresponds to the dust collection drawer (8) from top to bottom.

4. The flux-cored wire surface polishing treatment equipment as claimed in claim 3, wherein the claw cage body (13) comprises a rectangular frame (18) and two claw bodies (19), the shaft tube (17) is fixedly connected with the end of the rectangular frame (18), the claw bodies (19) are located in the rectangular frame (18), the claw bodies (19) comprise a shaft rod (20), a plurality of arc-shaped claws (21) and a plurality of elastic shafts are arranged on the shaft rod (20), the plurality of arc-shaped claws (21) are uniformly distributed along the length direction of the shaft rod (20), the length direction of the shaft rod (20) is parallel to the length direction of the welding wire (2), one end of each elastic shaft is fixedly connected with the side wall of the shaft rod (20), the other end of each elastic shaft is detachably connected with the side wall of the rectangular frame (18), the elastic shafts are located outside the arc-shaped claws (21), steel wire balls are arranged inside the arc-shaped claws (21), the plurality of arc-shaped claws (21) on one claw body (19) and the plurality of arc-shaped claws (21) on the other claw body (19) are crossed with each other and form a steel wire cage cavity, and the steel wire cage (2) penetrates through which is filled with the steel wire cage.

5. The flux-cored wire surface polishing treatment equipment as claimed in claim 2, 3 or 4, wherein the vertical reciprocating wire wiping structure (6) comprises a third speed reduction motor (22) and a vertical reciprocating wire wiping plate (23), an eccentric wheel I (24) is arranged at the output end of the third speed reduction motor (22), the eccentric wheel I (24) is positioned at one side of the support plate (9), the third speed reduction motor (22) is detachably connected with the other side corresponding to the support plate (9), the output end of the third speed reduction motor (22) penetrates through the support plate (9) and is detachably connected with one side of the eccentric wheel I (24), the other side corresponding to the eccentric wheel I (24) is provided with a connecting shaft I (25), one end of the connecting shaft I (25) is rotatably connected with the eccentric wheel I (24), a roller I (26) is arranged at the side surface of the other end of the connecting shaft I (25), the roller I (26) is rotatably connected with the eccentric wheel I (25), a limit frame I (27) is detachably connected to the vertical reciprocating wire wiping plate (23), the limit frame I (27) is vertically slidably connected with the support plate (9), the connecting shaft I (27) is positioned at the top of the limit frame I (27), and is positioned at the opening of the top of the limit frame I (27), the third speed reducing motor (22) is located between the top of the first limiting frame (27) and the opening (3), the welding wire (2) penetrates through the vertical reciprocating wire wiping plate (23), and the vertical reciprocating wire wiping plate (23) corresponds to the dust collection drawer (8) up and down.

6. The flux-cored wire surface polishing treatment equipment as claimed in claim 5, wherein the vertical reciprocating wire wiping plate (23) comprises two first clamping plates (28), the surfaces of the first clamping plates (28) are provided with hollow structures, one first clamping plate (28) and the other first clamping plate (28) are parallel to each other and are detachably connected, two pieces of scouring pad attached to each other are arranged between the first clamping plates (28), the two pieces of scouring pad are fixedly connected with the first clamping plates (28), the welding wire (2) penetrates between the two pieces of scouring pad, one side of one first clamping plate (28) is fixedly connected with the scouring pad, and the other corresponding side of the first clamping plate (28) is detachably connected with the first limiting frame (27).

7. The flux-cored wire surface polishing treatment equipment as claimed in claim 2, 3 or 4, wherein the transverse reciprocating wire wiping structure (7) comprises a four-speed reduction motor (29) and a transverse reciprocating wire wiping plate (30), a mounting plate (31) is detachably mounted on the other side corresponding to the support plate (9), the mounting plate (31) is parallel to the surface where the opening (3) is located, the four-speed reduction motor (29) is detachably connected with one side of the mounting plate (31), a second eccentric wheel (32) is arranged on the output end of the four-speed reduction motor (29), the second eccentric wheel (32) is located on the other side corresponding to the mounting plate (31), the output end of the four-speed reduction motor (29) penetrates through one side of the mounting plate (31) and the second eccentric wheel (32) to be detachably connected, a second connecting shaft (33) is arranged on the other side of the second connecting shaft (33), one end of the second eccentric wheel (32) is rotatably connected with the second eccentric wheel (32), a second roller (34) is arranged on the other end side of the second connecting shaft (33), the other end of the second connecting shaft (33) penetrates through the support plate (9) to be rotatably connected with the second roller (34), the upper limit wire wiping plate (30) is connected with a slide rail (9), and the end of the slide rail (9) is connected with the end of the reciprocating wire wiping plate (36) and the slide rail (9) and the end of the slide rail (9) connected with the slide rail (9) and the slide rail (36) ) Mutually perpendicular, slide rail (36) are maked somebody a mere figurehead and are located opening (3) department, horizontal reciprocal silk board (30) of wiping is through two (35) of spacing frame and slide rail (36) horizontal sliding connection, one side of two (35) of spacing frame is close to backup pad (9), backup pad (9) are kept away from to the corresponding opposite side of two (35) of spacing frame, two (34) of gyro wheel are located two (35) of spacing frame and are close to one side roll connection of backup pad (9) with two (35) of spacing frame, welding wire (2) run through in horizontal reciprocal silk board (30) of wiping, horizontal reciprocal silk board (30) of wiping is corresponding from top to bottom with collection dirt drawer (8).

8. The flux-cored wire surface polishing treatment equipment as claimed in claim 7, wherein the transverse reciprocating wire wiping plate (30) comprises two clamp plates II (37), the surfaces of the clamp plates II (37) are provided with hollow structures, one clamp plate II (37) and the other clamp plate II (37) are parallel to each other and detachably connected, two felts attached to each other are arranged between the two clamp plates II (37), the two felts are fixedly connected with the two clamp plates II (37) respectively, the welding wire (2) penetrates between the two felts, one side of one clamp plate II (37) is fixedly connected with the felts, and the other corresponding side of the clamp plate II is detachably connected with the limiting frame II (35).