CN113103094A

CN113103094A - Coarsening and curing device and coarsening and curing process for high-elongation ultra-thick copper foil

Info

Publication number: CN113103094A
Application number: CN202110394609.1A
Authority: CN
Inventors: 陆峰; 刘磊; 崔建华; 李铁林; 肖承培; 廖有金
Original assignee: Ganzhou Yihao New Material Co ltd
Current assignee: Ganzhou Yihao New Material Co ltd
Priority date: 2021-04-13
Filing date: 2021-04-13
Publication date: 2021-07-13

Abstract

The invention discloses a coarsening and curing device for a high-elongation ultra-thick copper foil, and simultaneously discloses a coarsening and curing device for a high-elongation ultra-thick copper foil and a coarsening and curing process thereof, wherein the coarsening and curing device comprises a polishing mechanism, a cleaning mechanism and a coarse curing electroplating box, when the copper foil reaches the upper end of a traction roller through a unreeling roller, a semi-circular gear is meshed with the upper end of a movable toothed plate to drive the movable toothed plate to move when rotating, meanwhile, the movable toothed plate also drives an abrasive paper layer to rub on the surface of the copper foil through an arc-shaped bottom plate to remove an oxide layer on the surface of the copper foil, when the copper foil is rubbed by the abrasive paper layer and conveyed to the inner side of the cleaning box, an ethanol chemical degreasing solution can permeate into a sponge block through a liquid outlet, the sponge block only needs to be wiped on the surface of the copper foil along with the movable toothed plate, when the copper, because the lower end of the copper foil has supporting force, the scraper blade can scrape materials on the surface of the copper foil in a reciprocating manner.

Description

Coarsening and curing device and coarsening and curing process for high-elongation ultra-thick copper foil

Technical Field

The invention relates to the technical field of copper foil processing, in particular to a coarsening and curing device and a coarsening and curing process for a high-elongation ultra-thick copper foil.

Background

Copper foil is a negative electrolyte material that is deposited as a thin, continuous metal foil on the substrate layer of a circuit board that serves as the electrical conductor for the PCB. It is easy to adhere to the insulating layer, receive the printing protective layer, form the circuit pattern after corroding.

When the high-elongation ultra-thick copper foil is produced, whether the copper foil is used for a printed circuit board or a current collector of a lithium ion battery, the surface of the copper foil needs to be roughened according to use requirements so as to enhance the bonding force between the copper foil and a resin substrate or active substances of the battery, most of the ultra-thick copper foil needs to be roughened and solidified by an electrolytic method when the surface of the ultra-thick copper foil needs to be treated, however, before the copper foil is roughened and solidified, the copper foil is easily oxidized in the air, an oxide film is formed on the surface of the copper foil, the roughening and solidifying reaction of the copper foil is influenced, if the surface of the copper foil is not cleaned by any treatment, enough bonding points required by the copper foil cannot be provided, and if the surface of the copper foil contains.

Therefore, a roughening and curing device and a roughening and curing process for the high-elongation ultra-thick copper foil are provided.

Disclosure of Invention

The invention aims to provide a high-elongation rate ultra-thick copper foil coarsening and solidifying device and a coarsening and solidifying process thereof, when a copper foil reaches the upper end of a traction roller through a unreeling roller, a semi-circular gear is meshed with the upper end of a movable toothed plate to drive the movable toothed plate to move when rotating, the movable toothed plate drives a sand paper layer to rub on the surface of the copper foil through an arc-shaped bottom plate to remove an oxide layer on the surface of the copper foil, when the copper foil is rubbed by the sand paper layer to be conveyed to the inner side of a cleaning box, an ethanol chemical degreasing solution can permeate into a sponge block through a liquid outlet hole, the sponge block only needs to wipe on the surface of the copper foil along with the movable toothed plate, when the copper foil enters the inner side of the cleaning box, a water outlet nozzle sprays water to the surface of the copper foil, when the copper foil reaches the upper end of a supporting flat plate, the lower end of the copper foil, thereby solving the problems set forth in the background above.

In order to achieve the purpose, the invention provides the following technical scheme: the coarsening and curing device for the high-elongation ultra-thick copper foil comprises a grinding mechanism, a cleaning mechanism and a coarse curing electroplating box, wherein the cleaning mechanism is installed on one side of the grinding mechanism, the coarse curing electroplating box is installed on one side, away from the grinding mechanism, of the cleaning mechanism, the grinding mechanism comprises a workbench, an unwinding roller, a winding roller, a support frame, a traction roller, a positioning rod, a pressure spring and a moving assembly, the unwinding roller is installed on one side of the upper end of the workbench, the winding roller is installed on one side, away from the unwinding roller, of the upper end of the workbench, the support frame is installed on one side of the unwinding roller, the traction roller is installed on the inner side of the support frame, the traction roller is parallel to the unwinding roller, the positioning rod is installed on the upper end of the;

clean mechanism includes the header tank, the clean case, the pickling solution box, the baffle leaks, transmission roller A, transmission roller B, scrape material subassembly and reciprocal subassembly, the centre inboard of workstation is provided with the header tank, the clean case is installed to the upper end of header tank, and the clean case is located the one side that the unreeling roller was kept away from to the support frame, the pickling solution box is installed to one side of clean case, the baffle that leaks is installed to the inner chamber bottom of clean case, transmission roller A is installed to the inner chamber lower extreme of clean case, transmission roller B is installed to the inner chamber upper end of clean case, and transmission roller A aligns with transmission roller B, one side of transmission roller B is provided with scrapes the material subassembly, transmission roller B keeps away from one side of scraping the material subassembly and installs reciprocal subassembly.

Further, the support frame is including leading to groove, fixed plate and driving motor, has seted up logical groove in the middle of the top of support frame, and the fixed plate is installed to top one side of support frame, and the driving motor is installed to one side that the unwinding roller was kept away from to the fixed plate.

Further, the fixed plate includes the initiative runner, the bearing frame, driving belt and semicircular gear, the initiative runner is installed to one side that driving motor was kept away from to the fixed plate, the pivot swing joint of initiative runner and driving motor output, the bearing frame is installed to one side of initiative runner, and the bearing frame is located one side that driving motor was kept away from to the fixed plate, the bearing frame passes through driving belt swing joint with the initiative runner, semicircular gear is installed to one side that the fixed plate was kept away from to the bearing frame, semicircular gear is located the inboard that leads to the groove.

Further, the movable assembly comprises a movable toothed plate, a jack, an arc-shaped bottom plate, a sand paper layer and an oil removing box, the movable toothed plate is installed on one side, away from the pressure spring, of the positioning rod, the movable toothed plate is located at the lower end of the semicircular gear, the semicircular gear is meshed with the movable toothed plate, the jacks are formed in two sides of the movable toothed plate, the positioning rod penetrates through the movable toothed plate through the jacks, the arc-shaped bottom plate is installed at the bottom end of the movable toothed plate, the sand paper layer is installed at the bottom end of the arc-shaped bottom plate, and the oil removing.

Further, deoiling case includes ethanol bin, inlet pipe, anti-reverse valve, drain pipe and solenoid valve, and the ethanol bin is installed to the inner chamber that removes the oil tank, and the inlet pipe is installed with the upper end one side that removes the oil tank to the ethanol bin, and the lower extreme of inlet pipe is provided with anti-reverse valve, and the one side lower extreme that the inlet pipe was kept away from to the ethanol bin is installed the drain pipe, and the drain pipe is hollow structure, installs the solenoid valve on the drain pipe.

Further, the drain pipe includes collection liquid box, thread bush, goes out liquid hole and sponge piece, and the drain pipe is kept away from the one end that removes the oil tank and is installed a collection liquid box, and a collection liquid box is located one side lower extreme that unreels the roller was kept away from to the oil tank, and the upper end of collecting liquid box is provided with the thread bush, and collects the liquid box and pass through thread bush and drain pipe threaded connection, and the liquid hole has been seted up on the bottom surface of collection liquid box, goes out the liquid hole and installs the sponge piece with the bottom of collection liquid box.

Further, the cleaning box comprises a water storage tank, a water outlet spray head, a supporting flat plate and an electric heating rod, the water storage tank is installed at the upper end of the cleaning box, the water outlet spray head is installed at the lower end of the water storage tank and located on one side of the upper end of the cleaning box, the supporting flat plate is arranged at the lower end of the water outlet spray head and parallel to the upper end of the transmission roller A, the electric heating rod is installed on one side, away from the water outlet spray head, of the transmission roller B, and the electric heating rod is installed on the inner wall of one side of the.

Further, scrape the material subassembly and include no pole cylinder, slider, screw thread telescopic link and scraper blade, no pole cylinder is installed to one side of transmission roller B, and the slider is installed to the lower extreme of no pole cylinder, and the screw thread telescopic link is installed to the bottom of slider, and the scraper blade is installed to the bottom of screw thread telescopic link, and the scraper blade is aligned with the support flat board.

Further, the reciprocating assembly comprises a mounting seat, a guide rod, a guide moving block, a positioning connecting rod and a fan-shaped panel, the mounting seat is installed on one side, away from the rodless cylinder, of the transmission roller B, the mounting seat is fixed on the inner wall of the cleaning box, the guide rod is installed in the middle of the mounting seat and penetrates through the guide moving block, the positioning connecting rod is installed on one side of the guide moving block, the guide moving block is fixedly connected with the sliding block through the positioning connecting rod, the fan-shaped panel is installed at the lower end of the guide moving block, and the fan-shaped panel is located at the upper end of the electric.

The invention provides another technical scheme that: the coarsening and curing device and the coarsening and curing process for the high-elongation ultra-thick copper foil comprise the following steps:

s1: when the copper foil reaches the upper end of the traction roller through the unwinding roller, the copper foil is meshed with the upper end of the movable toothed plate to drive the movable toothed plate to move when the semicircular gear rotates, and meanwhile, the movable toothed plate drives the sand paper layer to rub on the surface of the copper foil through the arc-shaped bottom plate;

s2: when the copper foil is rubbed by the abrasive paper layer and conveyed to the inner side of the cleaning box, the ethanol chemical degreasing solution can permeate into the sponge block through the liquid outlet hole, and the sponge block can be wiped on the surface of the copper foil only by following the movable toothed plate;

s3: when the copper foil enters the inner side of the cleaning box, the water outlet spray head sprays water to the surface of the copper foil, and when the copper foil reaches the upper end of the supporting flat plate, the lower end of the copper foil has supporting force, so that the scraper blade can scrape materials on the surface of the copper foil in a reciprocating manner;

s4: when the guide moving block moves on the guide rod in a reciprocating manner, the fan-shaped panel is driven to move synchronously, and when the fan-shaped panel moves, downward wind power is generated, so that hot air generated by the electric heating rod can be blown downwards;

s5: and conveying the cleaned copper foil to the inner side of the coarse solidification electroplating box, treating the surface of the coarse solidification electroplating box by an electrolytic method, roughening the solidified copper foil, drying the coarse solidification copper foil, and collecting the coarse solidification copper foil by using a winding roller.

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

1. the invention provides a coarsening and curing device for a high-elongation super-thick copper foil and a coarsening and curing process thereof, when the copper foil reaches the upper end of a traction roller through a unreeling roller, a driving motor drives a bearing seat to rotate through a driving rotating wheel, a semi-circular gear synchronously rotates along with the bearing seat when the bearing seat rotates, the semi-circular gear is meshed with the upper end of a movable toothed plate to drive the movable toothed plate to move when rotating, the movable toothed plate extrudes a pressure spring on one side to deform the pressure spring when moving on a positioning rod, simultaneously the movable toothed plate drives an abrasive paper layer to rub on the surface of the copper foil through an arc-shaped bottom plate to remove an oxide layer on the surface of the copper foil, when the semi-circular gear rotates to one side far away from the movable toothed plate, the movable toothed plate rebounds by the elastic potential energy of the pressure spring to enable the movable toothed plate to return to the original position to wait for the semi-circular gear to drive, the copper foil after the friction gets into the inboard of cleaning tank and cleans, avoids impurity sweeps to be long-pending to stay on its surface, and the copper foil after the cleaning is retransmitted to the inboard of coarse solidification electroplating box and is handled its surface through the electrolysis method, and the copper foil after the coarsing solidification weathers it and utilizes the wind-up roll to pack up it can, and is simple convenient.

2. The invention provides a coarsening and curing device for a high-elongation super-thick copper foil and a coarsening and curing process thereof, when the copper foil is rubbed by a sand paper layer and conveyed to the inner side of a cleaning box, a sponge block can synchronously move along with a movable toothed plate to degrease the surface of the copper foil, an operator can firstly pour an ethanol chemical degreasing solution into the inner side of an ethanol storage box through a feed pipe, a set check valve prevents the solution from generating counter flow when the inner side of the ethanol storage box is overfilled, when the surface of the copper foil needs to be degreased, the electromagnetic valve is only started to enable the solution to flow into the inner side of a liquid collecting box through a liquid outlet pipe, the electromagnetic valve can be closed when the inner side of the liquid collecting box is full, the ethanol chemical degreasing solution can permeate into the sponge block through a liquid outlet, at the moment, the sponge block can adsorb the solution and drip the solution to the outer side of the copper foil, the copper foil after being wiped with the ethanol chemical degreasing solution needs to be pickled through the inner side of the pickling solution box, so that the surface of the copper foil is prevented from containing oil stains to influence the coarsening and curing precision of the copper foil.

3. The invention provides a coarsening and curing device and a coarsening and curing process for a high-elongation ultra-thick copper foil, when the copper foil enters the inner side of a cleaning box, a water outlet spray head sprays water to the surface of the copper foil, oil stain and impurities on the surface of the copper foil are washed by water, a set scraper blade moves at the lower end of a rodless cylinder through a slide block, so that when the copper foil reaches the upper end of a supporting flat plate, due to the supporting force of the lower end of the copper foil, the scraper blade can scrape materials on the surface of the copper foil in a reciprocating manner, the sewage and the impurities are scraped off together, the hung sewage and the impurities fall to the inner side of a water collecting box through a water leakage baffle plate for collection, and when the copper foil is scraped and cleaned, the copper foil moves to the lower end of an electric heating rod for drying, the water stain on the surface of the copper foil can be evaporated, a, thereby be convenient for lead the movable block and follow the slider through the location connecting rod and carry out synchronous motion, when the movable block that leads reciprocating motion on the guide bar, will drive fan-shaped panel and carry out synchronous motion, will produce wind-force downwards when fan-shaped panel removes to can blow away the hot-air that the electrical heating stick produced downwards, the evaporation that water stain on the copper foil of being convenient for can be faster.

Drawings

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

FIG. 2 is a schematic view of the supporting frame of the present invention;

FIG. 3 is a side view of the interior of the cleaning tank of the present invention;

FIG. 4 is a schematic view of a half-circle gear of the present invention;

FIG. 5 is a schematic view of the moving assembly of the present invention;

FIG. 6 is a schematic view of the internal structure of the oil removal tank of the present invention;

FIG. 7 is a schematic view of the internal cross-sectional structure of the drip box of the present invention;

FIG. 8 is a schematic view of the scraper assembly of the present invention;

FIG. 9 is a schematic view of the reciprocating assembly of the present invention.

In the figure: 1. a polishing mechanism; 11. a work table; 12. unwinding rollers; 13. a wind-up roll; 14. a support frame; 141. a through groove; 142. a fixing plate; 1421. a driving runner; 1422. a bearing seat; 1423. a drive belt; 1424. a semi-circular gear; 143. a drive motor; 15. a traction roller; 16. positioning a rod; 17. a pressure spring; 18. a moving assembly; 181. a movable toothed plate; 182. a jack; 183. an arc-shaped bottom plate; 184. a sand paper layer; 185. removing an oil tank; 1851. an ethanol storage tank; 1852. a feed pipe; 1853. an anti-reverse valve; 1854. a liquid outlet pipe; 18541. a liquid collecting box; 18542. a threaded sleeve; 18543. a liquid outlet hole; 18544. a sponge block; 1855. an electromagnetic valve; 2. a cleaning mechanism; 21. a water collection tank; 22. a cleaning tank; 221. a water storage tank; 222. a water outlet nozzle; 223. supporting the flat plate; 224. an electrical heating rod; 23. pickling solution box; 24. a water leakage clapboard; 25. a transfer roller A; 26. a transfer roller B; 27. a scraping component; 271. a rodless cylinder; 272. a slider; 273. a threaded telescopic rod; 274. a squeegee; 28. a reciprocating assembly; 281. a mounting seat; 282. a guide bar; 283. guiding a moving block; 284. positioning the connecting rod; 285. a sector-shaped panel; 3. and (5) roughly solidifying the electroplating box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the coarsening and solidifying device for the high-elongation ultra-thick copper foil comprises a grinding mechanism 1, a cleaning mechanism 2 and a coarse solidifying electroplating tank 3, wherein the cleaning mechanism 2 is installed on one side of the grinding mechanism 1, the coarse solidifying electroplating tank 3 is installed on one side of the cleaning mechanism 2 away from the grinding mechanism 1, the grinding mechanism 1 comprises a workbench 11, an unwinding roller 12, a winding roller 13, a support frame 14, a traction roller 15, a positioning rod 16, a pressure spring 17 and a moving assembly 18, the unwinding roller 12 is installed on one side of the upper end of the workbench 11, the winding roller 13 is installed on one side of the upper end of the workbench 11 away from the unwinding roller 12, the support frame 14 is installed on one side of the unwinding roller 12, the traction roller 15 is installed on the inner side of the support frame 14, the traction roller 15 is parallel to the unwinding roller 12, the positioning rod 16 is installed on the upper end of the traction roller 15, the pressure spring 17 is installed, the cleaning mechanism 2 comprises a water collecting tank 21, a cleaning tank 22, a pickling solution box 23, a water leakage partition plate 24, a conveying roller A25, a conveying roller B26, a scraping assembly 27 and a reciprocating assembly 28, the water collecting tank 21 is arranged on the inner side of the middle of the workbench 11, the cleaning tank 22 is arranged at the upper end of the water collecting tank 21 and is positioned on one side of the supporting frame 14 far away from the unwinding roller 12, the pickling solution box 23 is arranged on one side of the cleaning tank 22, the water leakage partition plate 24 is arranged at the bottom end of the inner cavity of the cleaning tank 22, the conveying roller A25 is arranged at the lower end of the inner cavity of the cleaning tank 22, the conveying roller B26 is arranged at the upper end of the inner cavity of the cleaning tank 22, the conveying roller A25 is aligned with the conveying roller B26, the scraping assembly 27 is arranged on one side of the conveying roller B26, the reciprocating assembly 28 is arranged on one side of the conveying roller B26 far away from the scraping assembly 27, the, a fixing plate 142 is mounted on the top end side of the supporting frame 14, and a driving motor 143 is mounted on the side of the fixing plate 142 away from the unwinding roller 12.

Referring to fig. 4-5, in the roughening and curing apparatus for a high-elongation ultra-thick copper foil, a fixing plate 142 includes a driving wheel 1421, a bearing seat 1422, a driving belt 1423 and a half-round gear 1424, the driving wheel 1421 is installed on one side of the fixing plate 142 away from a driving motor 143, the driving wheel 1421 is movably connected to a rotating shaft at an output end of the driving motor 143, the bearing seat 1422 is installed on one side of the driving wheel 1421, the bearing seat 1422 is located on one side of the fixing plate 142 away from the driving motor 143, the bearing seat 1422 is movably connected to the driving wheel 1421 through the driving belt 1423, the half-round gear 1424 is installed on one side of the bearing seat 1422 away from the fixing plate 142, the half-round gear 1424 is located on an inner side of the through groove 141, a moving assembly 18 includes a moving toothed plate 181, a receptacle 182, an arc-shaped bottom plate 183, an oil removing layer 184 and a, semicircular gear 1424 meshes with movable toothed plate 181 mutually, and jack 182 has been seted up to the both sides of movable toothed plate 181, and locating lever 16 runs through movable toothed plate 181 through jack 182, and arc bottom plate 183 is installed to the bottom of movable toothed plate 181, and sand paper layer 184 is installed to the bottom of arc bottom plate 183, and the upper end of arc bottom plate 183 is installed except that oil tank 185.

Referring to fig. 6-7, in the roughening and solidifying apparatus for high elongation ultra-thick copper foil, the degreasing tank 185 includes an ethanol storage tank 1851, a feeding pipe 1852, an anti-reverse valve 1853, a liquid outlet pipe 1854 and an electromagnetic valve 1855, the ethanol storage tank 1851 is installed in an inner cavity of the degreasing tank 185, the feeding pipe 1852 is installed at one side of the upper ends of the ethanol storage tank 1851 and the degreasing tank 185, the anti-reverse valve 1853 is installed at the lower end of the feeding pipe 1852, a liquid outlet pipe 1854 is installed at the lower end of the side of the ethanol storage tank 1851 away from the feeding pipe 1852, the liquid outlet pipe 1854 is of a hollow structure, the electromagnetic valve 1855 is installed on the liquid outlet pipe 1854, the liquid outlet pipe 1854 includes a liquid collecting box 18541, a thread sleeve 18542, a liquid outlet hole 18543 and a sponge block 18544, the liquid collecting box 18541 is installed at one end of the liquid outlet pipe 1854 away from the degreasing tank 185, the liquid collecting box 18541 is located at the lower end of the side of the degreasing tank, the bottom surface of the liquid collection box 18541 is provided with liquid outlet holes 18543, and the bottom ends of the liquid outlet holes 18543 and the liquid collection box 18541 are provided with sponge blocks 18544.

Referring to fig. 3, 8 and 9, the roughening and curing device for the high-elongation ultra-thick copper foil includes a cleaning box 22 including a water storage tank 221, a water outlet nozzle 222, a support plate 223 and an electric heating rod 224, the upper end of the cleaning box 22 is provided with the water storage tank 221, the lower end of the water storage tank 221 is provided with the water outlet nozzle 222, the water outlet nozzle 222 is located at one side of the upper end of the cleaning box 22, the lower end of the water outlet nozzle 222 is provided with the support plate 223, the support plate 223 is parallel to the upper end of a transfer roller a25, one side of the transfer roller B26, which is far away from the water outlet nozzle 222, is provided with the electric heating rod 224, the electric heating rod 224 is installed at the inner wall of one side of the cleaning box 22, the scraping component 27 includes a rodless cylinder 271, a slider 272, a threaded telescopic rod 273 and a scraping plate 274, one side of the transfer roller B26 is provided with a rodless cylinder 271, the lower, and the scraper 274 is aligned with the supporting flat plate 223, the reciprocating assembly 28 comprises an installation seat 281, a guide rod 282, a guide moving block 283, a positioning connecting rod 284 and a fan-shaped panel 285, the installation seat 281 is installed on one side of the transmission roller B26 far away from the rodless cylinder 271, the installation seat 281 is fixed on the inner wall of the cleaning box 22, the guide rod 282 is installed in the middle of the installation seat 281, the guide rod 282 penetrates through the guide moving block 283, the positioning connecting rod 284 is installed on one side of the guide moving block 283, the guide moving block 283 is fixedly connected with the sliding block 272 through the positioning connecting rod 284, the fan-shaped panel 285 is installed at the lower end of the guide moving block 283, and the fan-shaped panel 285 is located.

In order to better show the coarsening and curing device of the high-elongation ultra-thick copper foil, the embodiment provides the coarsening and curing device of the high-elongation ultra-thick copper foil and the coarsening and curing process thereof, which comprises the following steps:

the method comprises the following steps: when the copper foil reaches the upper end of the traction roller 15 through the unwinding roller 12, when the semi-circular gear 1424 rotates, the copper foil is meshed with the upper end of the movable toothed plate 181 to drive the movable toothed plate to move, and meanwhile, the movable toothed plate 181 drives the sand paper layer 184 to rub on the surface of the copper foil through the arc-shaped bottom plate 183;

step two: when the copper foil is rubbed by the sandpaper layer 184 and conveyed to the inner side of the cleaning box 22, the ethanol chemical degreasing solution can permeate into the sponge block 18544 through the liquid outlet 18543, and the sponge block 18544 only needs to wipe the surface of the copper foil along with the movable toothed plate 181;

step three: when the copper foil enters the inner side of the cleaning box 22, the water outlet spray head 222 sprays water to the surface of the copper foil, and when the copper foil reaches the upper end of the supporting flat plate 223, the scraper 274 is convenient to scrape materials on the surface of the copper foil in a reciprocating manner due to the supporting force of the lower end of the copper foil;

step four: when the guide moving block 283 reciprocates on the guide rod 282, the fan-shaped panel 285 is driven to move synchronously, and when the fan-shaped panel 285 moves, downward wind power is generated, so that hot air generated by the electric heating rod 224 can be blown downwards;

step five: the cleaned copper foil is conveyed to the inner side of the coarse solidification electroplating box 3, the surface of the coarse solidification electroplating box is treated by an electrolytic method, the coarse solidification copper foil is dried by blowing, and the wind-up roller 13 is used for winding the coarse solidification copper foil.

In summary, the following steps: the invention provides a coarsening and solidifying device and a coarsening and solidifying process for a high-elongation super-thick copper foil, when the copper foil reaches the upper end of a traction roller 15 through a unreeling roller 12, a driving motor 143 drives a bearing seat 1422 to rotate through a driving rotating wheel 1421, a semi-circular gear 1424 synchronously rotates along with the bearing seat 1422 when the bearing seat 1422 rotates, when the semi-circular gear 1424 rotates, the semi-circular gear 1424 is meshed with the upper end of a movable toothed plate 181 to drive the movable toothed plate 181 to move, when the movable toothed plate 181 moves on a positioning rod 16, a pressure spring 17 at one side is extruded to deform the movable toothed plate 181, meanwhile, the movable toothed plate 181 drives an abrasive paper layer 184 to rub on the surface of the copper foil through an arc-shaped bottom plate to remove an oxide layer on the surface of the copper foil, when the semi-circular gear 1424 rotates to one side far away from the movable toothed plate 181, the movable toothed plate 181 rebounds from elastic potential, thereby the movable toothed plate 181 can drive the sandpaper layer 184 to perform reciprocating friction on the surface of the copper foil, the rubbed copper foil enters the inner side of the cleaning box 22 to be cleaned, so that impurity and waste scraps are prevented from being accumulated on the surface of the copper foil, the cleaned copper foil is transmitted to the inner side of the coarse solidification electroplating box 3 to be treated by an electrolytic method, the roughened solidified copper foil is dried and is collected by the wind-up roller 13, the operation is simple and convenient, when the copper foil is rubbed by the sandpaper layer 184 to be conveyed to the inner side of the cleaning box 22, the sponge block 18544 can synchronously move along with the movable toothed plate 181 to remove oil on the surface of the copper foil, an operator can firstly pour the ethanol chemical oil removal solution into the inner side of the ethanol storage box 1851 through the inlet pipe 1852, the arranged anti-reverse valve 1853 prevents the solution from overflowing to generate reverse flow on the inner side of the ethanol storage box 1851, when the surface of the copper foil needs to be removed, the electromagnetic valve 1855 is started to enable the solution to, when the inner side of the liquid collection box 18541 is full of liquid, the electromagnetic valve 1855 can be closed, the ethanol chemical degreasing solution can permeate into the sponge block 18544 through the liquid outlet 18543, at this time, the sponge block 18544 can absorb the solution to seep out and drip on the surface of the copper foil, the sponge block 18544 can wipe the surface of the copper foil only by the movable toothed plate 181, the copper foil wiped with the ethanol chemical degreasing solution needs to be pickled through the inner side of the pickling solution box 23, the problem that the roughening and curing precision of the copper foil is influenced by oil stains on the surface of the copper foil is avoided, when the copper foil enters the inner side of the cleaning box 22, the water outlet nozzle 222 sprays water to the surface of the copper foil, the oil stains and impurities on the surface of the copper foil are washed by water, the arranged scraper 274 moves at the lower end of the rodless cylinder 271 through the sliding block 272, and therefore, when the copper foil reaches the upper end of the support flat plate 223, the scraper 274 can carry, make sewage and impurity scraped off in the lump, sewage after the hanging will be collected through the inboard that the baffle 24 falls to header tank 21 that leaks, scrape the material clean back when the copper foil and will remove the lower extreme that electric heating rod 224 and dry, make its surface water stain can evaporate, the direction movable block 283 that sets up is installed on guide bar 282, direction movable block 283 carries out fixed connection through location connecting rod 284 and slider 272, thereby be convenient for direction movable block 283 follows slider 272 through location connecting rod 284 and carries out synchronous motion, when direction movable block 283 is reciprocating motion on guide bar 282, will drive fan-shaped panel 285 and carry out synchronous motion, will produce wind-force downwards when fan-shaped panel 285 moves, thereby can blow off the hot-air that electric heating rod 224 produced downwards, the evaporation that the water stain on the copper foil can be faster is convenient for.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Super thick copper foil alligatoring solidification equipment of high elongation, including grinding machanism (1), clean mechanism (2) and coarse solidification electroplating tank (3), clean mechanism (2) are installed to one side of grinding machanism (1), and coarse solidification electroplating tank (3), its characterized in that are installed to one side that grinding machanism (1) was kept away from in clean mechanism (2): the polishing mechanism (1) comprises a workbench (11), an unreeling roller (12), a reeling roller (13), a support frame (14), a traction roller (15), a positioning rod (16), a pressure spring (17) and a moving assembly (18), wherein the unreeling roller (12) is installed on one side of the upper end of the workbench (11), the reeling roller (13) is installed on one side, far away from the unreeling roller (12), of the upper end of the workbench (11), the support frame (14) is installed on one side of the unreeling roller (12), the traction roller (15) is installed on the inner side of the support frame (14), the traction roller (15) is parallel to the unreeling roller (12), the positioning rod (16) is installed on the upper end of the traction roller (15), the pressure spring (17) is installed on the surface of one side of the positioning rod (16), and the moving assembly (18) is;

the cleaning mechanism (2) comprises a water collecting tank (21), a cleaning tank (22), a pickling solution box (23), a water leakage clapboard (24), a transmission roller A (25), a transmission roller B (26), a scraping assembly (27) and a reciprocating assembly (28), wherein the water collecting tank (21) is arranged on the inner side of the middle of the workbench (11), the cleaning tank (22) is arranged at the upper end of the water collecting tank (21), the cleaning tank (22) is positioned on one side of the support frame (14) far away from the unwinding roller (12), the pickling solution box (23) is arranged on one side of the cleaning tank (22), the water leakage clapboard (24) is arranged at the bottom end of the inner cavity of the cleaning tank (22), the transmission roller A (25) is arranged at the lower end of the inner cavity of the cleaning tank (22), the transmission roller B (26) is arranged at the upper end of the inner cavity of the cleaning tank (22), the transmission roller A (25) is aligned with the transmission roller B (26), the scraping assembly (, the side of the conveying roller B (26) far away from the scraping component (27) is provided with a reciprocating component (28).

2. The roughening and curing device for high elongation ultra-thick copper foil according to claim 1, wherein: the supporting frame (14) comprises a through groove (141), a fixing plate (142) and a driving motor (143), the through groove (141) is formed in the middle of the top end of the supporting frame (14), the fixing plate (142) is installed on one side of the top end of the supporting frame (14), and the driving motor (143) is installed on one side, far away from the unwinding roller (12), of the fixing plate (142).

3. The roughening and curing device for high elongation ultra-thick copper foil according to claim 2, wherein: fixed plate (142) are including initiative runner (1421), bearing frame (1422), driving belt (1423) and semicircular gear (1424), driving runner (1421) is installed to one side that driving motor (143) was kept away from in fixed plate (142), the pivot swing joint of initiative runner (1421) and driving motor (143) output, bearing frame (1422) is installed to one side of initiative runner (1421), and bearing frame (1422) are located one side that driving motor (143) were kept away from in fixed plate (142), bearing frame (1422) pass through driving belt (1423) swing joint with initiative runner (1421), semicircular gear (1424) are installed to one side that fixed plate (142) were kept away from in bearing frame (1422), semicircular gear (1424) are located the inboard that leads to groove (141).

4. The roughening and curing device for high elongation ultra-thick copper foil according to claim 1, wherein: remove subassembly (18) including moving pinion rack (181), jack (182), arc bottom plate (183), abrasive paper layer (184) and deoiling case (185), locating lever (16) are kept away from one side of pressure spring (17) and are installed moving pinion rack (181), and move pinion rack (181) and be located the lower extreme of semi-circular gear (1424), semi-circular gear (1424) mesh with moving pinion rack (181), jack (182) have been seted up to the both sides of moving pinion rack (181), and locating lever (16) run through moving pinion rack (181) through jack (182), arc bottom plate (183) are installed to the bottom of moving pinion rack (181), abrasive paper layer (184) are installed to the bottom of arc bottom plate (183), the upper end of arc bottom plate (183) is installed and is removed oil tank (185).

5. The roughening and curing device for high elongation ultra-thick copper foil according to claim 4, wherein: remove oil tank (185) and include ethanol storage tank (1851), inlet pipe (1852), check valve (1853), drain pipe (1854) and solenoid valve (1855), remove the inner chamber of oil tank (185) and install ethanol storage tank (1851), inlet pipe (1852) are installed to ethanol storage tank (1851) and the upper end one side of removing oil tank (185), the lower extreme of inlet pipe (1852) is provided with check valve (1853), one side lower extreme that inlet pipe (1852) were kept away from in ethanol storage tank (1851) is installed drain pipe (1854), and drain pipe (1854) are hollow structure, install solenoid valve (1855) on drain pipe (1854).

6. The roughening and curing device for high elongation ultra-thick copper foil according to claim 5, wherein: the drain pipe (1854) is including collecting liquid box (18541), thread bush (18542), liquid outlet (18543) and sponge piece (18544), liquid collecting box (18541) are installed to the one end that removes oil tank (185) is kept away from in drain pipe (1854), and collect liquid box (18541) are located and remove oil tank (185) and keep away from the one side lower extreme of casting roll (12), the upper end of collecting liquid box (18541) is provided with thread bush (18542), and collect liquid box (18541) through thread bush (18542) and drain pipe (1854) threaded connection, liquid outlet (18543) have been seted up to the bottom surface of collecting liquid box (18541), sponge piece (18544) are installed with the bottom of collecting liquid box (18541) in liquid outlet (18543).

7. The roughening and curing device for high elongation ultra-thick copper foil according to claim 1, wherein: cleaning box (22) includes storage water tank (221), go out water shower nozzle (222), support flat board (223) and electrical heating rod (224), storage water tank (221) are installed to the upper end of cleaning box (22), go out water shower nozzle (222) are installed to the lower extreme of storage water tank (221), and go out water shower nozzle (222) and be located upper end one side of cleaning box (22), the lower extreme that goes out water shower nozzle (222) is provided with and supports flat board (223), and support flat board (223) and transmission roller A (25) upper end and parallel, one side that goes out water shower nozzle (222) is kept away from in transmission roller B (26) is installed electrical heating rod (224), and electrical heating rod (224) are installed at one side inner wall of cleaning box (22).

8. The roughening and curing device for high elongation ultra-thick copper foil according to claim 1, wherein: scrape material subassembly (27) and include no pole cylinder (271), slider (272), screw thread telescopic link (273) and scraper blade (274), no pole cylinder (271) is installed to one side of transmission roller B (26), slider (272) are installed to the lower extreme of no pole cylinder (271), screw thread telescopic link (273) is installed to the bottom of slider (272), scraper blade (274) are installed to the bottom of screw thread telescopic link (273), and scraper blade (274) align with support flat board (223).

9. The roughening and curing device for high elongation ultra-thick copper foil according to claim 1, wherein: reciprocating assembly (28) includes mount pad (281), guide bar (282), direction movable block (283), location connecting rod (284) and fan-shaped panel (285), mount pad (281) are installed to one side that no pole cylinder (271) was kept away from in transmission roller B (26), and mount pad (281) are fixed on the inner wall of cleaning box (22), guide bar (282) are installed to the centre of mount pad (281), guide bar (282) run through direction movable block (283), location connecting rod (284) are installed to one side of direction movable block (283), and direction movable block (283) are through location connecting rod (284) and slider (272) fixed connection, fan-shaped panel (285) are installed to the lower extreme of direction movable block (283), and fan-shaped panel (285) are located the upper end of electrical heating stick (224).

10. The process for roughening and curing the high elongation ultra thick copper foil according to any one of claims 1 to 9, comprising the steps of:

s1: when the copper foil reaches the upper end of the traction roller (15) through the unwinding roller (12), when the semicircular gear (1424) rotates, the copper foil is meshed with the upper end of the movable toothed plate (181) to drive the movable toothed plate to move, and meanwhile, the movable toothed plate (181) drives the sand paper layer (184) to rub on the surface of the copper foil through the arc-shaped bottom plate (183);

s2: when the copper foil is rubbed by the sand paper layer (184) and conveyed to the inner side of the cleaning box (22), the ethanol chemical degreasing solution permeates into the sponge block (18544) through the liquid outlet hole (18543), and the sponge block (18544) only needs to be wiped on the surface of the copper foil along with the movable toothed plate (181);

s3: when the copper foil enters the inner side of the cleaning box (22), the water outlet spray head (222) sprays water to the surface of the copper foil, and when the copper foil reaches the upper end of the supporting flat plate (223), the lower end of the copper foil has supporting force, so that the scraper (274) can scrape materials on the surface of the copper foil in a reciprocating manner;

s4: when the guide moving block (283) moves on the guide rod (282) in a reciprocating way, the fan-shaped panel (285) is driven to move synchronously, and when the fan-shaped panel (285) moves, downward wind power is generated, so that hot air generated by the electric heating rod (224) can be blown downwards;

s5: and conveying the cleaned copper foil to the inner side of the coarse solidification electroplating box (3) to treat the surface of the copper foil by an electrolytic method, roughening the solidified copper foil, drying the dried copper foil, and winding the dried copper foil by using a winding roller (13).