CN117185021B - Winding machine for cleaning surface of welding flux - Google Patents

Abstract

The invention belongs to the technical field of winding machines, in particular to a winding machine for cleaning the surface of welding flux, which comprises a mounting seat, wherein a mounting frame I is fixed at the end part of the mounting seat, a winding roller which is horizontally arranged is rotatably connected to the mounting frame I, one end of the winding roller is in transmission connection with a winding motor, the winding roller is used for winding welding wires, two cleaning rollers which are rotatably arranged are arranged on the mounting seat, the two cleaning rollers have a height difference in the vertical direction, the welding wires are contacted with the top of one cleaning roller, the welding wires are contacted with the bottom of the other cleaning roller, a brushing pad is fixed on the outer wall of the cleaning roller, and movable plates with annular structures are slidably connected to the two sides of the outer wall of the brushing pad. According to the invention, the welding wires are respectively contacted with the top and the bottom of the outer walls of the two cleaning rollers, and the welding wires swing left and right to squeeze the movable plates and the annular brush pads at the two sides, so that the completeness and the effectiveness of cleaning the surfaces of the welding wires are improved.

Description

Winding machine for cleaning surface of welding flux

Technical Field

The invention relates to the technical field of winders, in particular to a winder for cleaning the surface of solder.

Background

The welding wire is used as filling metal or simultaneously used as a metal wire welding material for electric conduction, and is manufactured and molded after extrusion and subsequent treatment in the production and processing process, and is rolled and placed, so that dirt is often attached to the surface of the welding wire in the processing process, and the welding wire is rolled after cleaning.

Typically, a plate-like wiper or a ring-like wiper is used for cleaning before solder is wound; however, when the platy wiper is used for cleaning the contact of the movable welding wire, the surface of the welding wire is not cleaned completely and uniformly due to the movement of the welding wire, and the cleaning effect is affected; the annular wiping piece is adopted, so that blockage and clamping are easy to occur when refractory impurities are removed due to limiting of the annular structure, and the quality of the welding wire is affected.

Disclosure of Invention

Based on the technical problems of the background technology, the invention provides a winding machine for cleaning the surface of solder.

The invention provides a winding machine for cleaning the surface of welding flux, which comprises a mounting seat, wherein a mounting frame I is fixed at the end part of the mounting seat, a winding roller which is horizontally arranged is rotationally connected to the mounting frame I, one end of the winding roller is in transmission connection with a winding motor, the winding roller is used for winding welding wires, two cleaning rollers which are rotationally arranged are arranged on the mounting seat, the two cleaning rollers have height differences in the vertical direction, the welding wires are contacted with the top of one cleaning roller, the welding wires are contacted with the bottom of the other cleaning roller, a brush sleeving pad is fixed on the outer wall of the cleaning roller, movable plates with annular structures are slidingly connected to the two sides of the outer wall of the brush sleeving pad, and an annular brush pad is fixed on the side surface of the movable plate, which is close to the welding wires.

Preferably, the mount pad top is located the both ends of cleaning roller and all is fixed with mounting bracket two, spacing slip has the fixing base in the mounting bracket two, the fixed orifices has been seted up to the fixing base side, and cleaning roller both ends all are fixed with the axostylus axostyle one of being connected with the fixed orifices rotation, be fixed with the spring one of vertical placing between fixing base and the two inner walls of mounting bracket, be connected with the spring telescopic link between fly leaf and the fixing base.

Preferably, the fixing seat is provided with a sliding block and a fixing plate, the sliding block and the second installation frame are in limited sliding, the fixing plate is fixed at the position, close to the cleaning roller, of the sliding block, one end, far away from the first spring, of the sliding block is fixed with a magnetic attraction block, and the end, corresponding to the magnetic attraction block, of the second installation frame is fixed with an electromagnetic block.

Preferably, the two electromagnetic blocks corresponding to the cleaning rollers are powered on and off at intervals, the winding roller is wound in a periodic rotation mode, and the first springs corresponding to the cleaning rollers are symmetrically arranged with welding wires at corresponding positions.

Preferably, the spring telescopic rod is provided with a rod piece and a pipe fitting which are in sliding connection, one end of the rod piece, far away from the pipe fitting, is fixed with the outer wall of the movable plate, one end of the pipe fitting, far away from the rod piece, is fixed with a positioning ring, a spring II is connected between one end of the rod piece and the positioning ring, an air bag with a columnar structure is connected between the end, close to the spring I, of the sliding block and the mounting frame II, and a connecting air pipe is communicated between the bottom of the air bag and the pipe fitting.

Preferably, the one side that the ring brush fills up towards the welding wire is provided with the scraper blade, and the scraper blade is located the side position that the corresponding cleaning roller kept away from the welding wire, with two scrapers that the cleaning roller corresponds are located central point's both sides respectively, and the scraper blade extends along the radial of cleaning roller, the locating shaft that the level was placed is fixed with in the position that fly leaf and scraper blade correspond, and the locating hole that corresponds in the locating shaft has been seted up to the scraper blade, is connected through the torsional spring between locating shaft and the locating hole inner wall.

Preferably, two positioning shafts outside the cleaning roller are respectively positioned at two ends of the scraper in the extending direction, an elastic rod is connected between the two scrapers, and the elastic rod is connected with the scraper at a position far away from the positioning shafts.

Preferably, one end, far away from the wind-up roll, of the top of the mounting seat is fixedly provided with a mounting frame III, the mounting frame III is rotationally connected with two horizontally placed feeding rolls, two stirring assemblies are arranged in the mounting frame III, the two stirring assemblies are respectively positioned at two sides of the feeding rolls, and the two stirring assemblies are respectively positioned at two sides of the welding wire; the stirring assembly is provided with two fixing frames I fixed on the mounting frame III, a shaft lever II which is vertically placed is connected between the two fixing frames I through torsion springs in a rotating mode, a stirring plate is fixed on the outer wall of the shaft lever II, the position, away from the feeding roller, of the stirring plate inclines towards the direction close to the welding wire, and annular array distributed contact blocks are fixed on the outer wall of the feeding roller and correspond to the stirring plate.

Preferably, two auxiliary cleaning components are arranged between the cleaning rollers, the two auxiliary cleaning components are respectively located at two sides of the welding wire, the auxiliary cleaning components are provided with a second fixing frame fixed with the mounting seat, the second top end of the second fixing frame is connected with a third shaft rod horizontally placed through torsion springs in a rotating mode, one end of the third shaft rod is fixedly provided with a connecting frame, and the two connecting frames are respectively located at two ends of the welding wire.

Preferably, the end part of the connecting frame is rotationally connected with a fourth shaft rod through a torsion spring, the fourth shaft rod is arranged in parallel with the welding wire, a cleaning piece which is vertically arranged with the welding wire is fixed on the outer wall of the fourth shaft rod, and the cleaning piece is in surface contact with the welding wire.

The beneficial effects of the invention are as follows:

in the embodiment of the invention, the welding wires are respectively contacted with the top and the bottom of the outer walls of the two cleaning rollers, the welding wires swing left and right to extrude the movable plates and the annular brush pads at the two sides, and the first spring is utilized to enable the cleaning rollers to move along the second mounting frame so as to extrude the cleaning rollers when cleaning stubborn impurities on the surfaces of the welding wires, so that the contact force between the welding wires and the cleaning rollers is changed, and the friction direction generated by the bending amplitude change of the welding wires outside the sleeve brush pads is changed, and the cleaning effect on the surfaces of the welding wires is improved.

In the embodiment of the invention, the winding roller is periodically wound, so that the two cleaning rollers are reciprocally powered off and electrified for multiple times in the period of winding rotation and winding suspension of the winding roller, thereby changing the contact between the welding wire and the cleaning rollers, improving the change of the direction and force of dirt friction on the surface of the welding wire and improving the cleaning effect on the surface of the welding wire.

In the embodiment of the invention, the air cavity between the rod piece and the pipe fitting in the spring telescopic rod is inflated by extruding the air cavity, and the rod piece is pushed outwards, so that when the electromagnetic block is powered off, the movable plates corresponding to the two sides approach to the middle to decelerate the welding wire, thereby enabling the movable plates to match with the lifting movement change of the cleaning roller to perform opening and closing operation, further improving the cleaning change effect of friction contact on the surface of the welding wire, and enabling the cleaning roller to match with the external operation to improve the cleaning effect and cleaning efficiency of the surface of the welding wire.

In the embodiment of the invention, when the welding wire horizontally deflects, the cleaning piece on the corresponding side is pushed to rotate around the shaft lever IV, and the cleaning piece on the part of the shaft lever IV far away from the welding wire rotates to push the other cleaning piece, so that the contact friction direction and the friction force between the surface of the cleaning piece and the surface of the welding wire are changed, and the cleaning effect on the surface of the welding wire is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a winder for cleaning the surface of solder;

fig. 2 is a schematic diagram of a distribution structure of a cleaning roller of a winding machine for cleaning a solder surface;

FIG. 3 is a schematic view of a second mounting frame and a cleaning roller of a winding machine for cleaning the surface of solder;

FIG. 4 is a schematic view of a cleaning roller of a rolling machine for cleaning solder surfaces;

FIG. 5 is a schematic diagram of the distribution structure of the scraping plates of the rolling machine for cleaning the surface of the welding flux;

FIG. 6 is a schematic view of the structure of a scraper and a spring bar of a rolling machine for cleaning the surface of solder according to the present invention;

FIG. 7 is a schematic diagram of a toggle assembly of a winder for cleaning solder surfaces according to the present invention;

fig. 8 is a schematic structural diagram of an auxiliary cleaning assembly of a winding machine for cleaning a solder surface according to the present invention.

In the figure: 1 mount pad, 2 mounting bracket one, 3 wind-up roll, 4 rolling motor, 5 welding wire, 6 mounting bracket two, 7 cleaning roller, 8 sets of brush pad, 9 fly leaf, 10 ring brush pad, 11 fixing base, 111 slider, 112 fixed plate, 113 magnetism inhale piece, 12 axostylus axostyle one, 13 spring one, 14 spring telescopic link, 15 electromagnetic block, 16 gasbag, 17 connecting air pipe, 18 scraper blade, 19 locating shaft, 20 elastic rod, 21 mounting bracket three, 22 feed roll, 221 contact block, 23 stir subassembly, 231 mount one, 232 axostylus axostyle two, 233 stir the board, 24 supplementary cleaning subassembly, 241 mount two, 242 axostylus axostyle three, 243 link, 244 axostylus axostyle four, 245 cleaning member.

Detailed Description

Example 1

Referring to fig. 1-2, a rolling machine for cleaning the surface of welding flux comprises a mounting seat 1, a first mounting frame 2 is fixed at the end part of the mounting seat 1, a rolling roller 3 which is horizontally arranged is rotationally connected to the first mounting frame 2, a rolling motor 4 is in transmission connection with one end of the rolling roller 3, the rolling roller 3 is used for winding welding wires 5, two cleaning rollers 7 which are rotationally arranged are arranged on the mounting seat 1, the two cleaning rollers 7 have a height difference in the vertical direction, the welding wires 5 are in contact with the top of one of the cleaning rollers 7, the welding wires 5 are in contact with the bottom of the other cleaning roller 7, a brush pad 8 is fixed on the outer wall of the cleaning roller 7, movable plates 9 with annular structures are slidingly connected to the two sides of the outer wall of the brush pad 8, the welding wires 5 move between the two adjacent movable plates 9, the side surfaces of the movable plates 9 close to the welding wires 5 are fixedly provided with an annular brush pad 10, in use, the welding wires 5 sequentially pass through the top of one cleaning roller 7, pass through the bottom of the other cleaning roller 7, and finally the rolling roller 3 is wound up, the welding wires 5 are enabled to be in contact with the two cleaning rollers 7 through the height difference between the two cleaning rollers 7, and the two cleaning rollers 7 are enabled to be bent, and the surfaces of the two cleaning rollers 7 are not in contact with the outer walls of the welding wires 5, and the outer walls of the two cleaning pads are respectively contacted with the outer walls of the cleaning pads 5, and the outer surfaces of the welding wires are respectively, and the two cleaning pads are contacted with the outer surfaces and the outer surfaces are respectively; in the winding process, the welding wire 5 generates friction force due to the non-uniformity of the dirt distribution on the outer wall, so that the welding wire 5 swings left and right in the winding process, the welding wire 5 swings left and right to press the movable plates 9 and the annular brush pads 10 at the two sides, and the side surfaces of the welding wire 5 perpendicular to the moving direction are subjected to contact cleaning, so that the completeness and the effectiveness of cleaning the surface of the welding wire 5 are improved; and the effectiveness of long-time rolling cleaning is ensured by cleaning the surface of the brushing pad 8 along with the movement of the welding wire 5 by utilizing the movable plate 9, so that the cleaning effectiveness in the welding wire rolling process is further improved.

In the invention, referring to fig. 3-4, a second mounting frame 6 is fixed at the top of a mounting seat 1 at two ends of a cleaning roller 7, a fixed seat 11 is slidingly limited in the second mounting frame 6, a fixed hole is arranged at the side edge of the fixed seat 11, a first shaft rod 12 rotationally connected with the fixed hole is fixed at two ends of the cleaning roller 7, a first spring 13 vertically arranged is fixed between the fixed seat 11 and the inner wall of the second mounting frame 6, a spring telescopic rod 14 is connected between a movable plate 9 and the fixed seat 11, so that the rotating connection of the cleaning roller 7 is ensured through the first shaft rod 12 rotationally connected with the fixed seat 11, the outer wall of the cleaning roller 7 is rotationally contacted with a welding wire 5, the movable plate 9 is moved along the outer wall of a brush sleeve 8 by the first spring telescopic rod 14, the cleaning roller 7 can be moved along the second mounting frame 6, the cleaning roller 7 is extruded when the refractory impurities on the surface of the welding wire 5 are cleaned, the contact force between the welding wire 5 and the cleaning roller 7 is changed, and the friction direction generated by the change of the bending amplitude of the welding wire 5 outside the brush sleeve 8 is changed, so that the cleaning effect on the surface of the welding wire 5 is improved.

In the invention, referring to fig. 3-4, a fixed seat 11 is provided with a sliding block 111 and a fixed plate 112, the sliding block 111 and a second installation frame 6 slide in a limiting manner, the fixed plate 112 is fixed at the position of the sliding block 111 close to a cleaning roller 7, one end of the sliding block 111, which is far away from a first spring 13, is fixed with a magnetic attraction block 113, the end of the second installation frame 6, which corresponds to the magnetic attraction block 113, is fixed with an electromagnetic block 15, the electromagnetic blocks 15, which correspond to the two cleaning rollers 7, are powered on and powered off at intervals, a winding roller 3 rotates and winds periodically, a first spring 13, which corresponds to the cleaning roller 7, is symmetrically arranged with a welding wire 5 at the corresponding position, namely, when the welding wire 5 contacts at the top position of the corresponding cleaning roller 7, the first spring 13, which corresponds to the two ends of the cleaning roller 7, is positioned below the sliding block 111, and vice versa; in a normal running state, the electromagnetic block 15 is electrified to enable the two cleaning rollers 7 to squeeze the welding wire 5 towards the corresponding welding wire 5, so that the welding wire 5 is wound in a tensioning state, and the friction force between the cleaning rollers 7 and the surface of the welding wire 5 can be adjusted by adjusting the magnetic force intensity of the electromagnetic block 15, so that the cleaning effect on the surface of the welding wire 5 is improved by the periodically-changeable friction force;

in the winding process, the electromagnetic block 15 corresponding to one cleaning roller 7 is powered off, the cleaning roller 7 is separated from the surface of the welding wire 5 along with the elastic contraction of the first spring 13, then the electromagnetic block 15 is continuously electrified, the cleaning roller 7 is instantaneously stretched under the action of magnetic attraction to be in contact with the surface of the welding wire 5, and the cleaning effect on dirt on the surface of the welding wire 5 is improved between the reciprocating actions of separating from contact; then, the other cleaning roller 7 is made to perform the same periodic operation once;

and the winding roller 3 is wound periodically, so that the two cleaning rollers 7 are powered off repeatedly in the period of winding rotation and winding suspension of the winding roller 3, and the contact between the welding wire 5 and the cleaning rollers 7 is changed, the friction direction and the force change of dirt on the surface of the welding wire 5 are improved, and the cleaning effect of the surface of the welding wire 5 is improved.

In the invention, referring to fig. 3, a rod piece and a pipe piece are slidably connected with a spring telescopic rod 14, one end of the rod piece, which is far away from the pipe piece, is fixed with the outer wall of a movable plate 9, one end of the pipe piece, which is far away from the rod piece, is fixed with a positioning ring, a spring II is connected between one end of the rod piece and the positioning ring, a columnar air bag 16 is connected between the end of a sliding block 111, which is close to a spring I13, and a mounting bracket II 6, an air bag 16 is connected between the bottom of the air bag 16 and the pipe piece, and a connecting air pipe 17 is communicated between the bottom of the air bag 16 and the pipe piece, and in the process of switching on and off the electromagnetic block 15, the sliding block 111 compresses the air bag 16 along with the shrinkage of the spring I13 when the power is switched on, and the air cavity is compressed, so that the air cavity between the rod piece and the pipe piece in the spring telescopic rod 14 is inflated by compressing the air cavity, and the rod piece is pushed outwards, so that when the electromagnetic block 15 is switched off, the movable plate 9 corresponding to the two sides approaches to the middle to decelerate the welding wire 5, so that the movable plate 9 cooperates with the lifting movement change of the cleaning roller 7 to perform opening and closing operation, further improving the cleaning effect of the surface friction contact of the welding wire, and cleaning effect of the cleaning roller.

In the invention, referring to fig. 5-6, a scraper 18 is arranged on one side of a ring brush pad 10 facing a welding wire 5, the scraper 18 is positioned at the side surface of a corresponding cleaning roller 7 far away from the welding wire 5, two scrapers 18 corresponding to the cleaning roller 7 are respectively positioned at two sides of the central position, the scraper 18 extends along the radial direction of the cleaning roller 7, a horizontally placed positioning shaft 19 is fixed at the position of a movable plate 9 corresponding to the scraper 18, a positioning hole corresponding to the positioning shaft 19 is formed in the scraper 18, the positioning shaft 19 is connected with the inner wall of the positioning hole through a torsion spring, two positioning shafts 19 positioned outside the cleaning roller 7 are respectively positioned at two ends of the scraper 18 in the extending direction, an elastic rod 20 is connected between the two scrapers 18, and the elastic rod 20 is connected with the positions of the scrapers 18 far away from the positioning shaft 19, so that the movable plates 9 at the two ends of the same cleaning roller 7 are respectively provided with the scrapers 18, the positioning shaft 19 for positioning one scraper 18 is arranged at the position close to the inner ring of the movable plate 9, and the positioning shaft 19 for positioning the other scraper 18 is arranged at the position close to the outer ring of the movable plate 9; in the process that the cleaning roller 7 and the brushing pad 8 rotate relative to the movable plate 9, the parts, close to the inner ring, of the two scraping plates 18 are contacted with the outer wall of the brushing pad 8 so as to clean the brushing pad 8 and ensure the effectiveness of long-time use; and the rotation directions of the extending parts of the two scraping plates 18 away from the corresponding positioning shafts 19 are opposite, and the two scraping plates 18 interact with each other along with friction rotation through the elastic rods 20 so as to improve the friction cleaning effect between the scraping plates 18 and the brushing pads 8.

Example 2

Embodiment 2 includes all the structures and methods of embodiment 1, referring to fig. 7, a winder for cleaning the surface of solder, further including a third mounting frame 21 fixed at one end of the top of the mounting base 1 far away from the wind-up roller 3, two cleaning rollers 7 arranged between the third mounting frame 21 and the first mounting frame 2, a third mounting frame 21 rotatably connected with two horizontally placed feeding rollers 22, a welding wire 5 moving between the two feeding rollers 22, two stirring assemblies 23 arranged in the third mounting frame 21, the two stirring assemblies 23 respectively positioned at two sides of the feeding rollers 22, and the two stirring assemblies 23 respectively positioned at two sides of the welding wire 5; the stirring assembly 23 is provided with two fixing frames one 231 fixed on the mounting frame three 21, a shaft lever two 232 vertically arranged is rotationally connected between the two fixing frames one 231 through a torsion spring, a stirring plate 233 is fixed on the outer wall of the shaft lever two 232, the position of the stirring plate 233 away from the feeding roller 22 is inclined towards the direction close to the welding wire 5, contact blocks 221 distributed in an annular array are fixed on the position, corresponding to the stirring plate 233, of the outer wall of the feeding roller 22, so that in the rotation process of the feeding roller 22, one side of the stirring plate 233 is extruded by the contact blocks 221 distributed on the outer wall of the feeding roller 22 at intervals, one side of the stirring plate 233 is close to the direction of the welding wire 5 to actively deflect with the welding wire 5, and the two stirring assemblies 23 are symmetrically arranged, namely, under the action of the reciprocating deflection of the two stirring assemblies 23, the welding wire 5 actively swings reciprocally between two sides in the moving direction, and the cleaning effect of the surface of the welding wire 5 is further improved by matching with the motion change of the cleaning roller 7.

Example 3

On the basis of embodiment 1 or embodiment 2, referring to fig. 8, a winder for cleaning a solder surface is provided, two auxiliary cleaning components 24 are disposed between two cleaning rollers 7, the two auxiliary cleaning components 24 are respectively located at two sides of a welding wire 5, the auxiliary cleaning components 24 are provided with a second fixing frame 241 fixed with a mounting seat 1, the top end of the second fixing frame 241 is rotationally connected with a third shaft 242 horizontally placed through a torsion spring, one end of the third shaft 242 is fixedly provided with a connecting frame 243, the two connecting frames 243 are respectively located at two end positions of the welding wire 5, the end of the connecting frame 243 is rotationally connected with a fourth shaft 244 through a torsion spring, the fourth shaft 244 is parallel to the welding wire 5, the outer wall of the fourth shaft 244 is fixedly provided with cleaning pieces 245 vertically arranged with the welding wire 5, the cleaning pieces 245 are in contact with the surface of the welding wire 5, so that the welding wire 5 is respectively in contact with opposite edges of the two cleaning pieces 245 through the distribution arrangement of the two sides of the connecting frames 243 and the cleaning pieces 245, when the welding wire 5 is horizontally deflected, the cleaning pieces 245 on corresponding sides are pushed, the cleaning pieces 245 are rotated around the fourth shaft 244, and the cleaning pieces 245 are correspondingly positioned at the parts of the fourth shaft 244 which are rotationally far from the welding wire 244, so that the cleaning pieces are rotated, and the cleaning pieces on the surfaces of the fourth shaft 245 are far from the cleaning pieces are separated from each other, and the cleaning pieces are contacted with the surface of the welding wire 245, and the cleaning effect is improved; and when two cleaning rollers 7 alternately move along the second mounting frame 6, the cleaning rollers 7 push the cleaning members 245 at the close positions in the vertical direction, the cleaning members 245 are driven to rotate around the third shaft lever 242, and the inclination angles of the two cleaning members 245 are relatively changed, so that the friction cleaning change effect on the surface of the welding wire is further improved, and the cleaning efficiency of the welding wire 5 is enhanced.

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 scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme 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 rolling machine for cleaning the surface of welding flux, includes mount pad (1), the tip of mount pad (1) is fixed with mounting bracket one (2), rotate on mounting bracket one (2) and be connected with wind-up roll (3) that the level was placed, the one end transmission of wind-up roll (3) is connected with wind-up motor (4), and wind-up roll (3) are used for coiling welding wire (5), a serial communication port, be provided with two cleaning rolls (7) that rotate and set up on mount pad (1), two cleaning rolls (7) have the difference in height on vertical direction, welding wire (5) contact with the top of one of them cleaning rolls (7), the bottom contact of welding wire (5) and another cleaning rolls (7), the outer wall of cleaning rolls (7) is fixed with cover brush pad (8), the equal sliding connection in both sides of cover brush pad (8) outer wall has movable plate (9) of annular structure, and the side that movable plate (9) are close to welding wire (5) is fixed with ring brush pad (10), the both ends that mount pad (1) top is located cleaning rolls (7) all are fixed with two (6), two (6) are fixed with the fixed with fixing base (11) in the fixed orifices, two fixing bases (11) are fixed with the fixed side, the utility model discloses a cleaning device for welding wire (5), including fixing base (11), mounting bracket (6), fixed base (111), fixed plate (112), fixed plate (111), fixed plate (112), electromagnetic block (15) are fixed with the tip that spring (13) was kept away from to slider (111), two electromagnetic block (15) that mounting bracket (6) and magnetic block (113) correspond are fixed with electromagnetic block (15) between fixed plate (11), fixed plate (11) are provided with slider (111) and fixed plate (112), spacing slip between slider (111) and the mounting bracket (6), fixed plate (112) are fixed with the position that slider (111) is close to cleaning roller (7), one end that spring (13) were kept away from to slider (111) is fixed with magnetic block (113), and the tip that mounting bracket (6) and magnetic block (113) correspond is fixed with electromagnetic block (15) interval switching on and off, winding roller (3) carry out periodic rotation and coil, first spring (13) that cleaning roller (7) correspond and welding wire (5) symmetry in corresponding position set up.

2. The rolling machine for cleaning the surface of welding flux according to claim 1, wherein the spring telescopic rod (14) is provided with a rod piece and a pipe piece which are connected in a sliding manner, one end of the rod piece, which is far away from the pipe piece, is fixed with the outer wall of the movable plate (9), one end of the pipe piece, which is far away from the rod piece, is fixed with a positioning ring, a second spring is connected between one end of the rod piece and the positioning ring, an air bag (16) with a columnar structure is connected between the end, which is close to the first spring (13), of the sliding block (111) and the second mounting frame (6), and a connecting air pipe (17) is communicated between the bottom of the air bag (16) and the pipe piece.

3. The rolling machine for cleaning the surface of welding flux according to claim 1, characterized in that a scraper (18) is arranged on one side, facing the welding wire (5), of the annular brush pad (10), the scraper (18) is located at a side position, far away from the welding wire (5), of the corresponding cleaning roller (7), two scrapers (18) corresponding to the cleaning roller (7) are located at two sides of the central position respectively, the scrapers (18) extend along the radial direction of the cleaning roller (7), a horizontally placed positioning shaft (19) is fixed at a position, corresponding to the scrapers (18), of the movable plate (9), a positioning hole corresponding to the positioning shaft (19) is formed in the scraper (18), and the positioning shaft (19) is connected with the inner wall of the positioning hole through a torsion spring.

4. A rolling machine for cleaning solder surface according to claim 3, characterized in that two positioning shafts (19) located outside the cleaning roller (7) are respectively located at two ends of the extending direction of the scraping plate (18), an elastic rod (20) is connected between the two scraping plates (18), and the elastic rod (20) is connected with the scraping plates (18) at a position far away from the positioning shafts (19).

5. The rolling machine for cleaning the surface of the welding flux according to any one of claims 1 to 4, characterized in that one end, far away from the rolling roller (3), of the top of the mounting seat (1) is fixedly provided with a mounting frame III (21), the mounting frame III (21) is rotationally connected with two horizontally placed feeding rollers (22), two stirring assemblies (23) are arranged in the mounting frame III (21), the two stirring assemblies (23) are respectively positioned on two sides of the feeding rollers (22), and the two stirring assemblies (23) are respectively positioned on two sides of the welding wire (5);

the stirring assembly (23) is provided with two fixing frames I (231) fixed on a mounting frame III (21), a shaft lever II (232) vertically placed is connected between the two fixing frames I (231) through torsion springs in a rotating mode, a stirring plate (233) is fixed on the outer wall of the shaft lever II (232), the stirring plate (233) is inclined towards the direction close to the welding wire (5) at the position away from the feeding roller (22), and contact blocks (221) distributed in an annular array are fixed on the outer wall of the feeding roller (22) and the position corresponding to the stirring plate (233).

6. The winding machine for cleaning the surface of welding flux according to any one of claims 1 to 2, characterized in that two auxiliary cleaning assemblies (24) are arranged between the two cleaning rollers (7), the two auxiliary cleaning assemblies (24) are respectively positioned at two sides of the welding wire (5), the auxiliary cleaning assemblies (24) are provided with a second fixing frame (241) fixed with the mounting seat (1), the top end of the second fixing frame (241) is rotationally connected with a third shaft lever (242) horizontally arranged through a torsion spring, one end of the third shaft lever (242) is fixedly provided with a connecting frame (243), and the two connecting frames (243) are respectively positioned at two ends of the welding wire (5).

7. The winding machine for cleaning the surface of welding flux according to claim 6, wherein the end part of the connecting frame (243) is rotatably connected with a fourth shaft rod (244) through a torsion spring, the fourth shaft rod (244) is arranged in parallel with the welding wire (5), a cleaning member (245) which is arranged perpendicular to the welding wire (5) is fixed on the outer wall of the fourth shaft rod (244), and the cleaning member (245) is in surface contact with the welding wire (5).