CN210287465U - Improved tinning flux coating device for copper wire processing - Google Patents

Abstract

The utility model provides a copper wire processing after improvement is with tin-plating scaling powder coating device, including scaling powder coating case, the support column puts the thing bottom plate, removes the wheel, and the box is collected to the sweeps, advances a pipe, the copper wire main part, scaling powder storage jar, the water conservancy diversion hose, and wiping stick structure is scraped to copper wire surface oxide, conveniently changes the coating pressure disk structure of coating foam-rubber cushion, can cushion the copper line immersion fluid groove structure of dredging, and the pinch roller is dredged to the controller, lifter, fluid infusion pipe and dust cap. The cleaning brush hair, the fixing pieces and the steel wire brush hair are arranged, so that sundries on the surface of the copper wire can be cleaned, the contact area between the cleaning brush hair and soldering flux is increased by scraping, and the coating effect is improved; sponge cassette, upper portion coating foam-rubber cushion, the setting of foam-rubber cushion is paintd to sponge box and lower part, is favorable to from upper and lower both sides to wrap up the coating to the copper wire, guarantees the quality of painting to the convenience is changed the foam-rubber cushion.

Description

Improved tinning flux coating device for copper wire processing

Technical Field

The utility model belongs to the technical field of the copper wire processing, especially, relate to a tinned flux coating device is used in copper wire processing after improvement.

Background

The copper wire pulling-out winder sequentially passes through the coating device to remove oxides on the surface of the copper wire and help tin plating, then tin plating is carried out through the tin furnace with liquefaction, and the copper wire is collected into the wire storage device after tin plating is finished. The tinning of the copper wire can prevent the insulating rubber from being sticky, the wire core from blackening and becoming brittle, the oxidation-reduction reaction is prevented from generating verdigris, the conductivity is improved, the performance of the wire is improved, the copper wire is introduced into a dipping tank with soldering flux to be cleaned before entering a tin furnace for the convenience of tinning of the copper wire, the surface oxide of the copper wire is removed, and the tinning effect is enhanced.

In addition, chinese patent publication No. CN208776810U discloses a tinning flux coating device for copper wire processing, which includes a liquid storage tank, a movable cover plate, a fixed cover plate, a liquid storage sponge, an upper side coating sponge, a lower side coating sponge, a threaded column and a lifting column, wherein the liquid storage sponge is arranged inside the liquid storage tank, a movable plate is arranged on the upper side of the liquid storage sponge, a first corrugated metal pipe is fixedly penetrated in the middle of the movable plate, a fixed plate is fixedly connected in the middle of the upper surface of the liquid storage tank, a pair of connecting rods arranged in an X shape is rotatably connected to the fixed plate through a pin shaft, the end portions of the connecting rods are respectively fixedly connected to limiting plates, and strip-shaped limiting through grooves are formed in the. However, the existing tinning flux coating device for processing copper wires still has the problems that the flux is smeared with sponge immersion liquid and is inconvenient to replace, and the scraping function of oxides on the surfaces of the copper wires and the coating effect are poor before immersion liquid coating.

Therefore, the invention is very necessary to invent an improved tinning flux coating device for processing copper wires.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a copper wire processing after improvement is with tin-plating scaling powder coating device to solve current copper wire processing and scribble the sponge immersion fluid with tin-plating scaling powder coating device scaling powder and change inconveniently, lack the relatively poor problem of copper wire surface oxide scraping function and coating effect before the immersion fluid coating. An improved tinned flux coating device for copper wire processing comprises a flux coating box, a support column, a storage bottom plate, a moving wheel, a scrap collecting box, a wire inlet guide pipe, a copper wire main body, a flux storage tank, a flow guide hose, a copper wire surface oxide scraping rod structure, a coating pressure plate structure convenient for replacing a coated sponge pad, a copper wire immersion liquid groove structure capable of buffering and dredging, a controller, a dredging press wheel, a lifting rod, a liquid supplementing pipe and a dust cap, wherein one end of the support column is respectively bolted at four corners of the lower surface of the flux coating box, and the other end of the support column is bolted at the upper surface of the storage bottom plate; the movable wheels are respectively connected to the four corners of the lower surface of the storage bottom plate through bolts; the waste chip collecting box is glued at the left position of the lower surface inside the soldering flux coating box; the wire feeding guide pipes are respectively embedded in the middle positions of the left wall and the right wall of the soldering flux coating box; the copper wire main body penetrates through the wire inlet guide pipe and the middle position in the soldering flux coating box; the soldering flux storage tank is glued to the middle position of the upper surface of the soldering flux coating tank; one end of the diversion hose penetrates through the middle position of the upper wall of the soldering flux coating box and is communicated with the inside of the soldering flux storage tank, and the other end of the diversion hose is connected to the upper part of a coating pressure plate structure which is convenient for replacing a coating sponge cushion; the oxide scraping rod structure on the surface of the copper wire is connected to the middle position of the left side of the inner rear surface of the soldering flux coating box through a bolt; the coating pressure plate structure convenient for replacing the coating spongy cushion is arranged at the lower part of the lifting rod; the copper wire immersion groove structure capable of buffering and dredging is connected to the middle position of the inner lower surface of the soldering flux coating box through bolts; the controller is connected to the lower position of the right side of the soldering flux coating box through a screw; the dredging press wheel is connected to the right side of the inner rear surface of the soldering flux coating box through a bolt; the lifting rod is connected to the upper surface of the interior of the soldering flux coating box through a bolt; the liquid supplementing pipe is embedded at the left side of the upper surface of the soldering flux storage tank and communicated with the inside of the soldering flux storage tank; the dust cap is buckled at the upper end of the liquid replenishing pipe; the scraping rod structure for the oxide on the surface of the copper wire comprises a driving motor, a driving shaft, a supporting rod, cleaning bristles, a fixing piece, steel wire bristles and a limiting cap, wherein a coupling of the driving shaft is connected to an output shaft of the driving motor; the support rod is embedded in the middle of the outer surface of the driving shaft; the transverse screw of the fixing plate is connected to the front surface of the support rod; the cleaning bristles are glued on the outer surface of the support rod; the steel wire brush bristles are glued on the front surface of the fixing sheet; the limiting cap is in threaded connection with the right end of the driving shaft.

Preferably, the coating pressure plate structure convenient for replacing the coating spongy cushion comprises a soldering flux flow guiding plate, a connecting pipe, a fixing sleeve, a sponge clamping seat and an upper coating spongy cushion, wherein the connecting pipe is in threaded connection with the middle position of the upper surface of the soldering flux flow guiding plate; the fixed sleeves are respectively connected to the left side and the right side of the upper surface of the soldering flux flow guide disc through screws; the scaling powder flow guide disc; the sponge clamping seats are respectively connected to the left side and the right side of the lower surface of the soldering flux flow guide disc through screws; the upper part is coated with a sponge cushion which is clamped in the sponge clamping seat.

Preferably, the copper wire immersion tank structure capable of buffering and dredging comprises an immersion tank box, a wire guide column, a supporting spring, a recovery connecting pipe, a filter plug and a manual control valve, wherein the wire guide column is in threaded connection with the upper side position of the inner rear wall of the immersion tank box; the supporting spring is connected to the middle position of the inner lower surface of the immersion tank box through a bolt; the recovery connecting pipe is embedded in the middle position of the right side of the lower wall of the immersion tank box; the filter plug is movably inserted in the upper side position inside the recovery connecting pipe; the manual control valve is in threaded connection with the middle position of the right side of the recovery connecting pipe.

Preferably, the upper end screw of the supporting spring is connected with a sponge box; the lower parts of the left side and the right side of the front surface of the sponge box are provided with liquid seepage holes; the upper side in the sponge box is provided with a lower smearing sponge cushion.

Preferably, the sponge box is a round stainless steel box with an opening at the upper part; the liquid seepage hole is a rectangular through hole.

Preferably, the soldering flux flow guide disc is a round stainless steel disc with a hollow inner part; and the lower surface of the soldering flux flow guide disc is provided with a circular liquid leakage hole.

Preferably, the front surface of the soldering flux coating box is hinged with a box door, and a toughened glass window is embedded in the front surface of the box door.

Preferably, the diversion hose is inserted in the connecting pipe; the fixed sleeve is sleeved at the lower end of the lifting rod and fixed by bolts.

Preferably, the soldering flux storage tank is communicated with the inside of the soldering flux flow guide disc through a flow guide hose and a connecting pipe.

Preferably, the moving wheel is a rubber universal wheel with a brake pad.

Preferably, the support rod is an elliptical rubber rod; the cleaning bristles are nylon filament bristles; the cleaning bristles and the steel wire bristle adhesive tape are arranged.

Preferably, the supporting rod is arranged at the upper side position inside the scrap collecting box; the scrap collecting box is a PVC plastic box with an opening at the upper part.

Preferably, the driving motor is connected with the rear wall of the interior of the soldering flux coating box through bolts.

Preferably, the driving motor and the lifting rod are respectively and electrically connected with the controller.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, the setting of clearance brush hair, stationary blade and steel wire brush hair is favorable to playing and clears up copper wire surface debris, the contact area of scraping increase and scaling powder improves the coating effect.

2. The utility model discloses in, driving motor, the setting of drive shaft and support stick, be favorable to playing the effect of supporting and dredging to can carry out regulation control to copper wire transmission speed.

3. The utility model discloses in, sponge cassette, upper portion coating foam-rubber cushion, the setting of foam-rubber cushion is paintd to sponge box and lower part, be favorable to wrapping up the coating to the copper wire from upper and lower both sides, guarantee the quality of painting to the convenience is changed the foam-rubber cushion.

4. The utility model discloses in, the recovery take over, filter stopper and manual control valve's setting is favorable to filtering the recovery to the scaling powder, increases operation rate.

5. The utility model discloses in, wire post and supporting spring's setting, be favorable to playing the effect of support to dredge the copper wire.

6. The utility model discloses in, the setting of fluid infusion pipe and dustproof cap, be favorable to adding the scaling powder in the scaling powder holding vessel to play the effect of dustproof protection.

7. The utility model discloses in, the weeping hole be the rectangle through-hole, be favorable to discharging the immersion fluid groove box to unnecessary scaling powder in, carry out the utilization that relapses.

8. The utility model discloses in, the removal wheel specifically adopt the rubber universal wheel that has the brake block, be favorable to removing and fixing this coating device, convenient copper wire processing equipment with the difference is connected and is used.

9. The utility model discloses in, the setting of lifter, be favorable to connecing greatly the scaling powder guiding disc, adjust upper portion coating foam-rubber cushion and the lower part and paint the pressure between the foam-rubber cushion, guarantee going on of coating operation.

Drawings

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

Fig. 2 is a schematic structural view of the structure of the oxide scraping rod on the surface of the copper wire of the utility model.

Fig. 3 is a schematic structural diagram of the coating platen structure for conveniently replacing the coating sponge mat of the present invention.

Fig. 4 is a schematic structural diagram of the structure of the copper wire immersion liquid tank capable of buffering and dredging of the present invention.

In the figure:

1. a soldering flux coating box; 2. a support pillar; 3. an article placing bottom plate; 4. a moving wheel; 5. a scrap collecting box; 6. a wire feeding conduit; 7. a copper wire main body; 8. a soldering flux storage tank; 9. a diversion hose; 10. an oxide scraping rod structure on the surface of the copper wire; 101. a drive motor; 102. a drive shaft; 103. a support rod; 104. cleaning the bristles; 105. a fixing sheet; 106. steel wire brush hair; 107. a limiting cap; 11. the coating pressure plate structure coated with the spongy cushion is convenient to replace; 111. a flux guiding disc; 112. a connecting pipe; 113. fixing the sleeve; 114. a sponge clamping seat; 115. the upper part is coated with a spongy cushion; 12. a copper wire immersion tank structure capable of buffering and dredging; 121. a liquid immersion tank box; 122. a wire guide post; 123. a support spring; 1231. a sponge box; 1232. a weep hole; 1233. the lower part is coated with a sponge cushion; 124. recovering the connecting pipe; 125. a filter plug; 126. a manual control valve; 13. a controller; 14. dredging the pinch roller; 15. a lifting rod; 16. a liquid supplementing pipe; 17. a dust cap.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in fig. 1 to 2, the utility model provides an improved tinning flux coating device for copper wire processing, which comprises a flux coating box 1, a support column 2, a storage bottom plate 3, a movable wheel 4, a scrap collecting box 5, a wire inlet guide pipe 6, a copper wire main body 7, a flux storage tank 8, a guide hose 9, a copper wire surface oxide scraping rod structure 10, a coating pressure plate structure 11 convenient for replacing a coating sponge pad, a copper wire immersion groove structure 12 capable of buffering and dredging, a controller 13, a dredging press wheel 14, a lifting rod 15, a liquid supplementing pipe 16 and a dust cap 17, wherein one end of the support column 2 is respectively bolted at four corners of the lower surface of the flux coating box 1, and the other end of the support column is bolted at the upper surface of the storage bottom plate 3; the moving wheels 4 are respectively bolted at the four corners of the lower surface of the storage bottom plate 3; the waste chip collecting box 5 is glued at the left position of the lower surface inside the soldering flux coating box 1; the wire feeding guide pipes 6 are respectively embedded in the middle positions of the left wall and the right wall of the soldering flux coating box 1; the copper wire main body 7 penetrates through the wire inlet guide pipe 6 and the middle position in the soldering flux coating box 1; the soldering flux storage tank 8 is glued to the middle position of the upper surface of the soldering flux coating tank 1; one end of the diversion hose 9 penetrates through the middle position of the upper wall of the soldering flux coating box 1 and is communicated with the inside of the soldering flux storage tank 8, and the other end of the diversion hose is connected to the upper part of a coating pressure plate structure 11 which is convenient for replacing a coating spongy cushion; the oxide scraping rod structure 10 on the surface of the copper wire is connected to the middle position of the left side of the inner back surface of the soldering flux coating box 1 through bolts; the coating pressure plate structure 11 convenient for replacing the coating spongy cushion is arranged at the lower part of the lifting rod 15; the copper wire immersion groove structure 12 capable of buffering and dredging is connected to the middle position of the inner lower surface of the soldering flux coating box 1 through bolts; the controller 13 is in screwed connection with the lower position of the right side of the soldering flux coating box 1; the dredging press wheel 14 is connected to the right side of the inner rear surface of the soldering flux coating box 1 through a bolt; the lifting rod 15 is connected to the upper surface of the interior of the soldering flux coating box 1 through bolts; the liquid supplementing pipe 16 is embedded at the left side of the upper surface of the soldering flux storage tank 8 and communicated with the inside of the soldering flux storage tank; the dust cap 17 is buckled at the upper end of the liquid replenishing pipe 16; the copper wire surface oxide scraping rod structure 10 comprises a driving motor 101, a driving shaft 102, a supporting rod 103, cleaning bristles 104, a fixing plate 105, steel wire bristles 106 and a limiting cap 107, wherein the driving shaft 102 is connected to an output shaft of the driving motor 101 through a coupling; the support rod 103 is embedded in the middle of the outer surface of the driving shaft 102; the fixing plate 105 is transversely screwed on the front surface of the support rod 103; the cleaning bristles 104 are glued on the outer surface of the support rod 103; the steel wire brush 106 is glued on the front surface of the fixing plate 105; the limit cap 107 is screwed on the right end of the driving shaft 102.

As shown in fig. 3, in the above embodiment, specifically, the coating platen structure 11 for conveniently replacing the coating sponge pad includes a soldering flux guiding plate 111, a connecting pipe 112, a fixing sleeve 113, a sponge clamping seat 114 and an upper coating sponge pad 115, where the connecting pipe 112 is screwed in the middle of the upper surface of the soldering flux guiding plate 111; the fixed sleeves 113 are respectively screwed at the left side and the right side of the upper surface of the soldering flux flow guide disc 111; the soldering flux flow guide disc 111; the sponge clamping seats 114 are respectively connected to the left side and the right side of the lower surface of the soldering flux flow guide disc 111 through screws; the upper portion is coated with a sponge pad 115 which is clamped in the sponge clamping seat 114.

In the above embodiment, as shown in fig. 4, specifically, the copper wire immersion tank structure 12 capable of buffering and dredging includes an immersion tank box 121, a wire guiding column 122, a supporting spring 123, a recovery connection pipe 124, a filter plug 125 and a manual control valve 126, wherein the wire guiding column 122 is screwed at an upper side position of an inner back wall of the immersion tank box 121; the supporting spring 123 is bolted at the middle position of the inner lower surface of the immersion tank box 121; the recovery connecting pipe 124 is embedded in the middle position of the right side of the lower wall of the immersion tank box 121; the filter plug 125 is movably inserted into the upper position inside the recovery connection pipe 124; the manual control valve 126 is screwed in the middle of the right side of the recovery connection pipe 124.

In the above embodiment, specifically, the upper end of the supporting spring 123 is screwed with the sponge box 1231; the lower parts of the left side and the right side of the front surface of the sponge box 1231 are provided with liquid seepage holes 1232; the sponge cushion 1233 is smeared on the lower part of the upper side in the sponge box 1231.

In the above embodiment, specifically, the sponge box 1231 is a circular stainless steel box with an open upper portion; the liquid seepage holes 1232 are rectangular through holes.

In the above embodiment, specifically, the soldering flux guiding disc 111 specifically adopts a circular stainless steel disc with a hollow interior; the lower surface of the soldering flux flow guide disc 111 is provided with a circular liquid leakage hole.

In the above embodiment, specifically, the front surface of the soldering flux coating box 1 is hinged to a box door, and a tempered glass window is embedded in the front surface of the box door.

In the above embodiment, specifically, the diversion hose 9 is inserted into the connection pipe 112; the fixing sleeve 113 is sleeved on the lower end of the lifting rod 15 and fixed by bolts.

In the above embodiment, specifically, the soldering flux storage tank 8 is communicated with the inside of the soldering flux guiding disc 111 through the guiding hose 9 and the connecting pipe 112.

In the above embodiment, specifically, the moving wheel 4 is a rubber universal wheel with a brake pad.

In the above embodiment, specifically, the support rod 103 is an elliptical rubber rod; the cleaning bristles 104 are made of nylon filaments; the cleaning bristles 104 and the steel wire bristles 106 are arranged in a rubber strip mode.

In the above embodiment, specifically, the support rod 103 is disposed at the upper position inside the scrap collecting box 5; the scrap collecting box 5 is a PVC plastic box with an opening at the upper part.

In the above embodiment, specifically, the driving motor 101 is connected to the rear wall of the interior of the soldering flux applying box 1 by bolts.

In the above embodiment, specifically, the driving motor 101 and the lifting rod 15 are respectively electrically connected to the controller 13.

In the above embodiment, specifically, the driving motor 101 is a motor with a model number of 80 ST-M02430; the lifting rod 15 is an electric lifting rod with model number wxtg12 v; the controller 13 is specifically a controller with model number ZXF 8030.

Principle of operation

When the device is used, the scaling powder coating box 1 is pushed to move the device to the copper wire processing equipment accessory under the action of the moving wheel 4, and the brake pad on the moving wheel 4 is fixed; connecting a copper wire main body 7 with a winding device on the right side by a traction line, starting the winding device, enabling the copper wire main body 7 to enter a soldering flux coating box 1 through a wire inlet guide pipe 6, controlling the rotation of a driving motor 101 through a controller 13 so as to drive a driving shaft 102 and a supporting rod 103 to rotate, scraping and cleaning sundries on the surface of the copper wire main body 7 under the action of cleaning bristles 104 and steel wire bristles 106 in the rotating process of the supporting rod 103, and dropping the sundries into a scrap collecting box 5, when the copper wire main body 7 reaches a position between an upper coating sponge pad 115 and a lower coating sponge pad 1233, starting a lifting rod 15 through the controller 13 to drive the soldering flux guide disc 111 and the upper coating sponge pad 115 to descend so as to wrap the copper wire main body 7 between the upper coating sponge pad 115 and the lower coating sponge pad 1233, enabling the soldering flux to flow into a soldering flux guide hose 9 and the soldering flux guide disc 111 from a soldering flux storage tank, and then the flux permeates into the upper coating sponge cushion 115 and the lower coating sponge cushion 1233, so that the copper wire main body 7 is coated, the redundant flux flows back into the immersion tank box 121 through the immersion hole 1232 to be collected, when a certain amount of flux is stored, the recovery container is placed at the lower part of the recovery connecting pipe 124, the manual control valve 126 is opened, and the flux flows back into the recovery container after being filtered by the filter plug 125 to be recycled.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (10)

1. An improved tinning flux coating device for copper wire processing is characterized by comprising a flux coating box (1), supporting columns (2), a storage bottom plate (3), moving wheels (4), a scrap collecting box (5), a wire feeding guide pipe (6), a copper wire main body (7), a flux storage tank (8), a guide hose (9), a copper wire surface oxide scraping bar structure (10), and a coating pressure plate structure (11) for conveniently replacing a coated sponge mat, a copper wire immersion tank structure (12) capable of buffering and dredging, a controller (13), a dredging press wheel (14), a lifting rod (15), a liquid supplementing pipe (16) and a dust cap (17), one end of the support column (2) is respectively bolted at four corners of the lower surface of the soldering flux coating box (1), and the other end of the support column is bolted on the upper surface of the storage bottom plate (3); the moving wheels (4) are respectively connected to the four corners of the lower surface of the storage bottom plate (3) through bolts; the waste chip collecting box (5) is glued at the left side of the lower surface inside the soldering flux coating box (1); the scraping rod structure (10) for the oxides on the surface of the copper wire is connected to the middle position of the left side of the rear surface in the soldering flux coating box (1) through a bolt; the coating pressure plate structure (11) convenient for replacing the coating spongy cushion is arranged at the lower part of the lifting rod (15); the copper wire immersion groove structure (12) capable of buffering and dredging is connected to the middle position of the inner lower surface of the soldering flux coating box (1) through bolts; the controller (13) is connected to the lower position of the right side of the soldering flux coating box (1) through a screw; the dredging press wheel (14) is connected to the right side of the inner rear surface of the soldering flux coating box (1) through a bolt; the lifting rod (15) is connected to the upper surface of the interior of the soldering flux coating box (1) through bolts; the scraping rod structure (10) for the oxide on the surface of the copper wire comprises a driving motor (101), a driving shaft (102), a supporting rod (103), cleaning bristles (104), a fixing plate (105), steel wire bristles (106) and a limiting cap (107), wherein a coupling of the driving shaft (102) is connected to an output shaft of the driving motor (101); the support rod (103) is embedded in the middle of the outer surface of the driving shaft (102); the fixing plate (105) is transversely screwed on the front surface of the support rod (103); the cleaning bristles (104) are glued on the outer surface of the support rod (103); the steel wire brush hair (106) is glued on the front surface of the fixing plate (105); the limiting cap (107) is in threaded connection with the right end of the driving shaft (102).

2. The improved tinning flux coating device for processing copper wires as recited in claim 1, wherein the coating platen structure (11) for conveniently replacing and coating the sponge pad comprises a flux guide plate (111), a connecting pipe (112), a fixing sleeve (113), a sponge clamping seat (114) and an upper coating sponge pad (115), wherein the connecting pipe (112) is in threaded connection with the middle position of the upper surface of the flux guide plate (111); the fixed sleeves (113) are respectively connected to the left side and the right side of the upper surface of the soldering flux flow guide disc (111) through screws; the soldering flux flow guide disc (111); the sponge clamping seats (114) are respectively connected to the left side and the right side of the lower surface of the soldering flux flow guide disc (111) through screws; the upper part is coated with a sponge cushion (115) which is clamped in the sponge clamping seat (114).

3. The improved tinning flux coating device for processing copper wires is characterized in that the copper wire dipping tank structure (12) capable of buffering and dredging comprises a dipping tank box (121), a wire guide column (122), a supporting spring (123), a recovery connecting pipe (124), a filter plug (125) and a manual control valve (126), wherein the wire guide column (122) is in threaded connection with the upper side position of the inner rear wall of the dipping tank box (121); the supporting spring (123) is connected to the middle position of the inner lower surface of the immersion tank box (121) through a bolt; the recovery connecting pipe (124) is embedded in the middle position of the right side of the lower wall of the immersion tank box (121); the filter plug (125) is movably inserted in the upper side position inside the recovery connecting pipe (124); the manual control valve (126) is in threaded connection with the middle position of the right side of the recovery connecting pipe (124).

4. The improved tinning flux coating device for processing copper wires as recited in claim 3, wherein the sponge box (1231) is screwed to the upper end of the supporting spring (123); the lower parts of the left side and the right side of the front surface of the sponge box (1231) are provided with liquid seepage holes (1232); the upper side in the sponge box (1231) is provided with a lower smearing sponge cushion (1233).

5. The improved tinning flux coating device for processing copper wires as recited in claim 4, wherein the sponge box (1231) is a round stainless steel box with an open upper part; the liquid seepage holes (1232) are rectangular through holes.

6. The improved tinning flux coating device for processing copper wires as recited in claim 2, wherein the flux guiding disc (111) is a round stainless steel disc with a hollow interior; the lower surface of the scaling powder flow guide disc (111) is provided with a circular liquid leakage hole.

7. The improved tinning flux coating device for processing copper wires as recited in claim 2, wherein the diversion hose (9) is inserted into the connecting pipe (112); the fixed sleeve (113) is sleeved at the lower end of the lifting rod (15) and fixed by bolts.

8. The improved tinning flux coating device for processing copper wires as recited in claim 2, wherein the flux storage tank (8) is communicated with the inside of the flux guiding disc (111) through a guiding hose (9) and a connecting pipe (112).

9. The improved tinning flux coating device for processing copper wires as claimed in claim 1, wherein the supporting rod (103) is an elliptical rubber rod; the cleaning bristles (104) are nylon filament bristles; the cleaning bristles (104) and the steel wire bristles (106) are arranged in an adhesive tape mode.

10. The improved tinning flux coating device for copper wire processing according to claim 1, wherein the support rod (103) is disposed at an inner upper side position of the scrap collecting box (5); the scrap collecting box (5) is a PVC plastic box with an opening at the upper part.

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