CN117123564A - Electrolytic copper foil manufacturing and processing equipment and method - Google Patents

Abstract

The invention relates to the technical field of copper foil production, and discloses electrolytic copper foil manufacturing and processing equipment and a method, wherein the electrolytic copper foil manufacturing and processing equipment comprises a cleaning structure and a bearing structure, wherein the bearing structure is fixedly arranged on the cleaning structure and can be inserted into a cleaning tank; a plurality of copper plates can be put in through the bearing structure, enough intervals between the copper plates can be realized for effectively cleaning liquid flow, and meanwhile, the copper plates can be driven to swing to promote the separation of residues; and after cleaning, the air can be quickly and comprehensively dried, so that the cleaning efficiency is improved.

Description

Electrolytic copper foil manufacturing and processing equipment and method

Technical Field

The invention relates to the technical field of copper foil production, in particular to electrolytic copper foil manufacturing and processing equipment and method.

Background

The electrolytic copper foil is mostly strip-shaped after production and is rolled; however, according to different use, some copper foils are cut into copper blocks or copper plates with corresponding lengths without winding after being cut into corresponding widths; however, as broken particles in the cutting process are easy to exist after cutting, other substances after electrolysis can remain, and the subsequent use can be influenced, the copper block or copper plate after cutting needs to be cleaned; however, in order to improve the cleaning efficiency, the existing ultrasonic cleaning copper plates are all formed by mutually attaching a plurality of copper plates, and the attached wall surfaces cannot be effectively cleaned, so that particles or residues are effectively removed, and therefore, the electrolytic copper foil manufacturing and processing equipment is designed.

Disclosure of Invention

The invention aims to provide electrolytic copper foil manufacturing and processing equipment and method, which are used for solving the problem of effectively cleaning and removing residual on the surfaces of a plurality of copper plates.

In order to achieve the above purpose, the present invention provides the following technical solutions: the electrolytic copper foil manufacturing and processing equipment comprises a cleaning structure and a bearing structure, wherein the bearing structure is fixedly arranged on the cleaning structure and can be inserted into a cleaning tank.

Preferably, the cleaning structure comprises a main body box, a cleaning pool, a pair of ultrasonic generators, a filtering assembly, a liquid pump and a pair of hydraulic cylinders; the main part case is the rectangle box, and does not have preceding lateral wall and upper wall, wash the pond and fix and set up on wasing the case, wash the pond in the lower wall middle part and be provided with the back flow, a pair of ultrasonic generator is fixed respectively to be set up in wasing the pond lower wall, and is located the back flow left and right sides respectively, filter component is fixed to be set up in the main part incasement lower wall, and is located left end position department, filter component links to each other with the back flow, the liquid pump is fixed to be set up in the main part incasement lower wall, and is located the right-hand member, the liquid pump feed end is connected with filter component through the pipeline, the pipeline is installed to the liquid pump liquid outlet end, and runs through in main part case right side wall, a pair of the pneumatic cylinder is fixed respectively to be set up in wash pond left and right sides wall, and is located the bottom that is close to the front end respectively.

Preferably, the cleaning structure is capable of ultrasonic cleaning and facilitates liquid circulation flow filtration.

Preferably, the filter assembly comprises a filter box, a filter frame and a pair of filter cottons; the filter box is fixedly arranged on the lower wall in the main body box, the bottom of the right side wall of the filter box is connected with the liquid inlet end of the liquid pump, the filter frame is composed of three layers, the top layer is of a plate body structure, the bottom two layers are of a box body structure, the bottom of the filter frame is movably inserted in the filter box, the top of the filter frame is buckled above the filter box, the top of the filter frame is connected with the return pipe through a pipeline, and the filter cotton is movably inserted in the bottom of the filter frame respectively.

Preferably, the bearing structure comprises a cover plate, a bearing frame, two pairs of fans, a plurality of groups of bearing units, an electric push rod and a pushing frame; the cover plate is of a rectangular structure, the cover plate is fixedly arranged on the telescopic end of the hydraulic cylinder, the cover plate is connected with the liquid outlet end of the liquid pump through a pipeline, the bearing frame is fixedly arranged on the lower wall of the cover plate and is close to the front end, two pairs of fans are respectively fixedly embedded in the rear end of the cover plate, a plurality of bearing units are respectively movably arranged on the bearing frame at equal intervals, the electric push rod is fixedly arranged on the right end of the bottom of the bearing frame, the pushing frame is fixedly arranged on the telescopic end of the electric push rod, a plurality of poking rods are arranged on the upper wall of the pushing frame at equal intervals, and one ends of the poking rods are respectively movably inserted in the first poking grooves and cannot be separated from the first poking grooves.

Preferably, the bearing unit comprises a first bearing box, a mounting nut, a motor, a sleeve, a shaft lever, a second bearing box, a third bearing box, a plurality of baffle rods, three baffle plates and a plurality of adjusting screws; the first bearing box is a box body with a rectangular shape and no rear side wall, a separation net is arranged in the middle of the box body, the side walls of the first bearing box are of a net structure, the right side wall of the first bearing box is close to the top end and provided with an arc-shaped first slideway, the bottom of the front side wall of the first bearing box is provided with a first poking groove, a rotating shaft is arranged above the first poking groove, the first bearing box is movably arranged on a bearing frame, the rotating shaft movably penetrates through the bearing frame, the lower wall of the first bearing box is provided with a first mounting box, the first poking groove is movably sleeved on a poking rod, a mounting nut is movably screwed on the rotating shaft, a motor is fixedly arranged on the left side wall in the bottom end of the first mounting box, one end of a sleeve is fixedly arranged on the right side wall of the first mounting box, one end of the shaft rod movably penetrates through a sleeve and is fixedly connected to the driving end of the motor, the second bearing box has the same structure as the first bearing box, the middle part of the lower wall is provided with a second mounting box, the middle part of the right side wall of the second bearing box is provided with a second slide way, the left side wall of the second bearing box is provided with a first slide bar, the bottom of the second bearing box is movably sleeved on one end of the sleeve, the first slide bar is movably inserted in the front end of the first slide way, the third bearing box is the same as the first bearing box, the lower wall is provided with a third mounting box, the left side wall of the second bearing box is provided with a second slide bar which is the same as the first slide bar, the third bearing box is fixedly sleeved on the other end of the shaft rod and is positioned at the front side of the second bearing box, one end of a plurality of baffle bars is movably inserted in the second slide way, one ends of the baffle bars are respectively detachably and rotatably connected in the first bearing box, the second bearing box and the upper wall edge of the third bearing box, the baffle is of a net structure, the three baffles are detachably buckled on the rear end of the first bearing box, the rear end of the second bearing box and the rear end of the third bearing box respectively, and the adjusting bolts respectively penetrate through four corners of the baffles movably and are connected in the rear side walls of the first bearing box, the second bearing box and the third bearing box in a screwing mode.

Preferably, the bearing structure can drive the copper plate to swing and overturn, and promote the liquid flowing effect when adjusting the interval, effectively drive the residue to remove.

Preferably, the first bearing box, the second bearing box and the third bearing box are equidistantly arranged, and the second bearing box and the third bearing box can be turned backwards for a certain angle and are limited by means of the first sliding rod and the second sliding rod.

Preferably, the bearing unit can be pushed to turn left and right by a poking rod on the pushing frame for a certain angle.

The electrolytic copper foil manufacturing and processing equipment and method provided by the invention have the beneficial effects that:

1. the invention realizes effective cleaning by means of ultrasonic wave through the cleaning structure, can drive liquid to flow to filter particles, and can be used in a layered manner by a plurality of devices;

2. according to the invention, a plurality of copper plates can be put in through the bearing structure, and enough intervals between the copper plates can be realized to effectively clean the liquid flow, and meanwhile, the copper plates can be driven to swing to promote the separation of residues;

3. the invention can also air-dry rapidly and comprehensively after cleaning, and improves the cleaning efficiency.

Drawings

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

FIG. 2 is a schematic view of a split structure of a cleaning structure according to the present invention;

FIG. 3 is a schematic view of the assembly structure of the cleaning structure of the present invention;

FIG. 4 is a schematic view of a split bearing structure according to the present invention;

FIG. 5 is a schematic view of an assembled load bearing structure according to the present invention;

FIG. 6 is a schematic view of a partially assembled enlarged display structure of the present invention;

FIG. 7 is a schematic view of a partial enlarged structure at A in FIG. 4 according to the present invention;

FIG. 8 is a schematic view of a partial enlarged structure at B in FIG. 4 according to the present invention;

FIG. 9 is a schematic view of a partially enlarged structure of the present invention at C in FIG. 4;

FIG. 10 is a schematic view of a partially enlarged structure of the present invention at D in FIG. 4;

FIG. 11 is a schematic view of a partially enlarged structure at E in FIG. 5 according to the present invention;

FIG. 12 is a schematic view of the expanded display structure of FIG. 11;

fig. 13 is a schematic view of the expanded display structure of fig. 6.

In the figure: 1. cleaning the structure; 11. a main body box; 12. a cleaning pool; 13. an ultrasonic generator; 14. a filter assembly; 141. a filter box; 142. a filter frame; 143. filtering cotton; 15. a liquid pump; 16. a hydraulic cylinder; 2. a load bearing structure; 21. a cover plate; 22. a carrier; 23. a fan; 24. a carrying unit; 241. a first carrying case; 242. installing a nut; 243. a motor; 244. a sleeve; 245. a shaft lever; 246. a second carrying case; 247. a third carrying case; 248. a gear lever; 249. a baffle; 250. adjusting a screw; 25. an electric push rod; 26. a pushing frame; 3. a screen; 4. a first slideway; 5. a second slideway; 6. the toggle rod, 7, first mounting box, 8, second mounting box, 9, third mounting box, 111, first slide bar, 222, pivot.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-13, the present invention provides a technical solution: the electrolytic copper foil manufacturing and processing equipment comprises a cleaning structure 1 and a bearing structure 2, wherein the bearing structure 2 is fixedly arranged on the cleaning structure 1, and the bearing structure 2 can be inserted into a cleaning tank 12.

Preferably, the cleaning structure 1 further comprises a main body tank 11, a cleaning tank 12, a pair of ultrasonic generators 13, a filter assembly 14, a liquid pump 15 and a pair of hydraulic cylinders 16;

the main body box 11 is a rectangular box body, no front side wall and no upper wall are arranged, the cleaning tank 12 is fixedly arranged on the cleaning box, a return pipe is arranged in the middle of the lower wall in the cleaning tank 12, a pair of ultrasonic generators 13 are respectively fixedly arranged on the lower wall of the cleaning tank 12 and are respectively positioned on the left side and the right side of the return pipe, the filter assembly 14 is fixedly arranged on the lower wall in the main body box 11 and is positioned at the left end part, the filter assembly 14 is connected with the return pipe, the liquid pump 15 is fixedly arranged on the lower wall in the main body box 11 and is positioned at the right end, the liquid inlet end of the liquid pump 15 is connected with the filter assembly 14 through a pipeline, the liquid outlet end of the liquid pump 15 is provided with a pipeline and penetrates through the right side wall of the main body box 11, and a pair of hydraulic cylinders 16 are respectively fixedly arranged on the left side wall and the right side wall of the cleaning tank 12 and are respectively positioned at the bottom close to the front end.

Preferably, the filter assembly 14 includes a filter box 141, a filter frame 142, and a pair of filter cotton 143;

the filter tank 141 is fixed to be set up in the lower wall in main part case 11, and filter tank 141 right side wall bottom links to each other with liquid pump 15 feed liquor end, filter frame 142 comprises the three-layer, and the top layer is plate body structure, and the bottom two-layer box body structure that is, filter frame 142 bottom activity cartridge is in filter tank 141, and filter frame 142 top cartridge in filter tank 141 top, filter frame 142 top links to each other through pipeline and back flow, a pair of filter cotton 143 activity cartridge respectively in filter frame 142 bottom.

As a preferred solution, the carrying structure 2 comprises a cover plate 21, a carrying frame 22, two pairs of fans 23, a plurality of groups of carrying units 24, an electric push rod 25 and a pushing frame 26;

the cover plate 21 is of a rectangular structure, the cover plate 21 is fixedly arranged on the telescopic end of the hydraulic cylinder 16, the cover plate 21 is connected with the liquid outlet end of the liquid pump 15 through a pipeline, the bearing frame 22 is fixedly arranged on the lower wall of the cover plate 21 and close to the front end, two pairs of fans 23 are respectively fixedly embedded in the rear end of the cover plate 21, a plurality of bearing units 24 are respectively movably arranged on the bearing frame 22 at equal intervals, the electric push rod 25 is fixedly arranged on the right end of the bottom of the bearing frame 22, the pushing frame 26 is fixedly arranged on the telescopic end of the electric push rod 25, a plurality of poking rods 6 are arranged on the upper wall of the pushing frame 26 at equal intervals, and one ends of the poking rods 6 are respectively movably inserted in the first poking grooves and cannot be separated from the first poking grooves.

Preferably, the carrying unit 24 includes a first carrying case 241, a mounting nut 242, a motor 243, a sleeve 244, a shaft 245, a second carrying case 246, a third carrying case 247, a plurality of levers 248, three baffles 249, and a plurality of adjusting screws 250;

the first bearing box 241 is a box body with a rectangular shape and no rear side wall, a separation net 3 is arranged in the middle of the box body, the side walls of the first bearing box 241 are of a net structure, an arc-shaped first slideway 4 is arranged on the right side wall of the first bearing box 241 close to the top end, a first poking groove is arranged at the bottom of the front side wall of the first bearing box 241, a rotating shaft 222 is arranged above the first poking groove, the first bearing box 241 is movably arranged on the bearing frame 22, the rotating shaft 222 movably penetrates through the bearing frame 22, a first mounting box 7 is arranged on the lower wall of the first bearing box 241, the first poking groove is movably sleeved on the poking rod 6, a mounting nut 242 is movably connected on the rotating shaft 222, a motor 243 is fixedly arranged on the left side wall in the bottom end of the first mounting box 7, one end of a sleeve 244 is fixedly arranged on the right side wall of the first mounting box 7, one end of a shaft 245 movably penetrates through the sleeve 244, the second bearing box 246 is fixedly connected to the driving end of the motor 243, the structure of the second bearing box 246 is the same as that of the first bearing box 241, the middle part of the lower wall is provided with a second mounting box 8, the middle part of the right side wall of the second bearing box 246 is provided with a second slide way 5, the left side wall of the second bearing box 246 is provided with a first slide bar 111, the bottom of the second bearing box 246 is movably sleeved on one end of the sleeve 244, the first slide bar 111 is movably inserted in the front end of the first slide way 4, the third bearing box 247 is the same as that of the first bearing box 241, the lower wall is provided with a third mounting box 9, the left side wall of the second bearing box 246 is provided with a second slide bar which is the same as that of the first slide bar 111, the third bearing box 247 is fixedly sleeved on the other end of the shaft rod 245 and is positioned at the front side of the second bearing box 246, the second slide bar is movably inserted in the second slide way 5, and one end of the stop rod 248 is detachably and rotatably connected to the first bearing box 241, the baffles 249 are in a net structure, three baffles 249 are detachably fastened to the rear ends of the first, second and third bearing boxes 241, 246, 247, and the adjusting bolts movably penetrate through four corners of the baffles 249 and are movably screwed into the rear side walls of the first, second and third bearing boxes 241, 246, 247.

As a preferred solution, the first bearing box 241, the second bearing box 246 and the third bearing box 247 are equidistantly arranged, and the second bearing box 246 and the third bearing box 247 can be turned backwards for a certain angle and limited by the first sliding rod 111 and the second sliding rod.

Preferably, the carrying unit 24 can be pushed to turn left and right by the toggle rod 6 on the pushing frame 26.

The working principle comprises the following steps:

firstly, placing a plurality of copper plates after production cutting in a first bearing box 241, a second bearing box 246 and a third bearing box 247 in a bearing unit 24; and a certain degree of separation space can be performed through the separation net 3; step two, according to the length and width of the partition, the baffle rod 248 can be rotated to adjust the height and shield the upper part of the partition, and the adjusting screw 250 is rotated to adjust the distance between the baffle plate 249 and the first bearing box 241 to adjust the throwing width; step three, after being put in through the bearing units 24, the hydraulic cylinder 16 can be driven to shrink to drive the cover plate 21 to descend, so that the bearing units 24 on the bearing frame 22 descend and are immersed into the liquid in the cleaning tank 12; step four, the ultrasonic generator 13 in the main body box 11 is driven to work, so that the liquid in the cleaning tank 12 is cleaned by ultrasonic waves; simultaneously, the liquid pump 15 is driven, so that the liquid in the cleaning tank 12 enters the filter frame 142 in the filter assembly 14 through the return pipe, and after the particles are filtered sequentially through the two layers of filter cotton 143, the liquid stays in the filter tank 141; and the liquid is pumped by the liquid pump 15, and flows into the cleaning tank 12 again through the cover plate 21 by the pipeline to form circulation; step five, the first bearing box 241, the second bearing box 246 and the third bearing box 247 are vertically arranged in the cleaning pool 12 at the same intervals in the cleaning process, the pushing frame 26 can be moved by controlling the telescopic driving of the electric motor, the pushing frame is slid in the first poking groove through the poking rod 6, the first bearing box 241 can be driven to be limited by the mounting nut 242, the rotating shaft 222 can be used for overturning the bearing frame 22 for swinging at a certain angle, the liquid circulation between copper plates is promoted, the cleaning efficiency is improved, and the cleaning of residues is promoted; step six, the shaft rod 245 is driven to rotate firstly by the rotation of the driving motor 243, and then the third bearing box 247 is driven to overturn to one side by the third mounting box 9, and the second sliding rod slides in the second sliding way 5 along with the overturn of the third bearing box 247; the second carrying case 246 loses the limit of the second slide bar at one end in the second slide way 5 and can turn over to the same side by the limit of the second mounting case 8; or the second sliding rod slides to the other end of the second slideway 5 to drive the second bearing box 246 to turn over, and after the second bearing box 246 turns over to the maximum angle, the first sliding rod 111 is positioned in the other end of the first slideway 4; the first bearing box 241 is fixed by the limit of the first mounting box 7, and at the moment, the first bearing box 241, the second bearing box 246 and the third bearing box 247 are alternately arranged and opened once just like the opening of the fan ribs, so that the relative spacing of copper plates in the inner part is improved, and the cleaning flow promoting effect is enhanced; step seven, after cleaning, lifting and resetting the bearing unit 24 through the hydraulic cylinder 16, and separating from the cleaning pool 12; the above operation is repeated, the copper plate is driven to swing and turn over to be opened, and after the distance is increased, the fan 23 is controlled to drive, and the air drying of each wall surface of the copper plate is accelerated.

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

Claims (7)

1. An electrolytic copper foil manufacturing and processing device is characterized in that: the ultrasonic cleaning device comprises a cleaning structure (1) and a bearing structure (2), wherein the bearing structure (2) is fixedly arranged on the cleaning structure (1), the bearing structure (2) can be inserted into a cleaning pool (12), the cleaning structure (1) is used for ultrasonic cleaning and flow circulation filtering, and the bearing structure (2) is used for bearing a plurality of copper plates;

the cleaning structure (1) comprises a main body box (11), a cleaning tank (12), a pair of ultrasonic generators (13), a filtering assembly (14), a liquid pump (15) and a pair of hydraulic cylinders (16);

the utility model discloses a cleaning device for the kitchen ware, including main part case (11), washing pond (12), pipeline, a pair of ultrasonic generator (13), filter assembly (14) and pump (15) are fixed to be set up in main part case (11) inner lower wall, and have preceding lateral wall and upper wall, wash pond (12) fixed set up on wasing the case, wash the lower wall middle part in pond (12) and be provided with the back flow, a pair of ultrasonic generator (13) are fixed respectively to be set up in wash pond (12) lower wall, and are located the back flow left and right sides respectively, filter assembly (14) are fixed to be set up in main part case (11) inner lower wall, filter assembly (14) link to each other with the back flow, pump (15) are fixed to be set up in main part case (11) inner lower wall, pump (15) feed end passes through the pipeline and links to each other with filter assembly (14), pump (15) are installed the pipeline, and run through in main part case (11) right lateral wall, a pair of pneumatic cylinder (16) are fixed respectively to be located the bottom near the front end respectively.

2. The electrolytic copper foil manufacturing and processing apparatus according to claim 1, wherein: the filter assembly (14) comprises a filter box (141), a filter frame (142) and a pair of filter cottons (143);

the filter box (141) is fixedly arranged on the inner lower wall of the main box (11), the bottom of the right side wall of the filter box (141) is connected with the liquid inlet end of the liquid pump (15), the filter frame (142) is composed of three layers, the top layer is of a plate body structure, the bottom two layers are of a box body structure, the bottom of the filter frame (142) is movably inserted into the filter box (141), the top of the filter frame (142) is buckled above the filter box (141), the top of the filter frame (142) is connected with the backflow pipe through a pipeline, and a pair of filter cottons (143) are respectively movably inserted into the bottom of the filter frame (142).

3. The electrolytic copper foil manufacturing and processing apparatus according to claim 2, wherein: the bearing structure (2) comprises a cover plate (21), a bearing frame (22), two pairs of fans (23), a plurality of groups of bearing units (24), an electric push rod (25) and a pushing frame (26);

the cover plate (21) is of a rectangular structure, the cover plate (21) is fixedly arranged at the telescopic end of the hydraulic cylinder (16), the cover plate (21) is connected with the liquid outlet end of the liquid pump (15) through a pipeline, the bearing frame (22) is fixedly arranged on the lower wall of the cover plate (21), two pairs of fans (23) are respectively fixedly embedded in the rear end of the cover plate (21), a plurality of bearing units (24) are respectively movably arranged on the bearing frame (22) at equal intervals, the electric push rod (25) is fixedly arranged at the right end of the bottom of the bearing frame (22), the pushing frame (26) is fixedly arranged at the telescopic end of the electric push rod (25), a plurality of poking rods (6) are arranged on the upper wall of the pushing frame (26) at equal intervals, and one ends of the poking rods (6) are respectively movably inserted in the first poking grooves and cannot be separated from the first poking grooves.

4. The electrolytic copper foil manufacturing and processing apparatus according to claim 3, wherein: the bearing unit (24) comprises a first bearing box (241), a mounting nut (242), a motor (243), a sleeve (244), a shaft lever (245), a second bearing box (246), a third bearing box (247), a plurality of baffle rods (248), three baffle plates (249) and a plurality of adjusting screws (250);

the first bearing box (241) is a box body with a rectangular shape and no rear side wall, a separation net (3) is arranged in the middle of the box body, the side walls of the first bearing box (241) are of a net structure, the right side wall of the first bearing box (241) is close to the top end and is provided with a first arc-shaped slideway (4), a first toggle groove is formed in the bottom of the front side wall of the first bearing box (241), a rotating shaft (222) is arranged above the first toggle groove, the first bearing box (241) is movably arranged on the bearing frame (22), the rotating shaft (222) movably penetrates through the bearing frame (22), the lower wall of the first bearing box (241) is provided with a first mounting box (7), the first toggle groove is movably sleeved on the toggle rod (6), the mounting nut (242) is movably connected onto the rotating shaft (222), one end of the sleeve (244) is fixedly arranged on the right side wall of the first mounting box (7), one end of the motor (246) is movably arranged on the left side wall of the first mounting box (7), one end of the motor (246) is movably connected with the first side wall (246), the second side wall (245) is fixedly arranged on the first side wall (8), the second side wall (243) is fixedly connected with the first side wall (111) of the second bearing box (5), the bottom of the second bearing box (246) is movably sleeved on one end of the sleeve (244), the first sliding rod 111 is movably inserted in the front end of the first slideway (4), the third bearing box (247) is identical to the first bearing box (241), the lower wall is provided with a third mounting box (9), the left side wall of the second bearing box (246) is provided with a second sliding rod identical to the first sliding rod (111), the third bearing box (247) is fixedly sleeved on the other end of the shaft rod (245) and is positioned on the front side of the second bearing box (246), the second sliding rod is movably inserted in the second slideway (5), one ends of a plurality of baffle rods (248) are respectively detachably and rotatably connected in the upper walls of the first bearing box (241), the second bearing box (246) and the third bearing box (247), the baffle plates (249) are of a net structure, the three baffle plates (249) are respectively detachably buckled on the rear end of the first bearing box (241), the rear end of the second bearing box (246) and the rear end of the third bearing box (246) as well as the rear end of the third bearing box (247) are rotatably connected in the four corners of the first bearing box (247) and the second bearing box (247) respectively.

5. The electrolytic copper foil manufacturing and processing apparatus according to claim 4, wherein: the first bearing box (241), the second bearing box (246) and the third bearing box (247) are equidistantly arranged, and the second bearing box (246) and the third bearing box (247) can be turned backwards for a certain angle and are limited by means of the first sliding rod (111) and the second sliding rod.

6. The electrolytic copper foil manufacturing and processing apparatus according to claim 5, wherein: the bearing unit (24) can be pushed to turn left and right by a toggle rod (6) on the pushing frame (26) for a certain angle.

7. The method for using an electrolytic copper foil manufacturing and processing apparatus according to claim 6, wherein: the method comprises the following steps:

firstly, placing a plurality of copper plates after production cutting in a first bearing box (241), a second bearing box (246) and a third bearing box (247) in a bearing unit (24); and a certain degree of separation space is carried out through the separation net (3);

step two, according to the length and the width of the partition plate, rotating a baffle rod (248) to adjust the height and shield the upper part of the partition plate, and rotating an adjusting screw (250) to adjust the distance between the baffle plate (249) and the first bearing box (241) to adjust the throwing width;

step three, after being put in through the bearing units (24), the hydraulic cylinder (16) is driven to shrink, the cover plate (21) is driven to descend, and the bearing units (24) on the bearing frame (22) are immersed into liquid in the cleaning pool (12) in a descending mode;

step four, the ultrasonic generator (13) in the main body box (11) is driven to work, so that the liquid in the cleaning pool (12) is cleaned by ultrasonic waves; simultaneously, the liquid pump (15) is driven, so that liquid in the cleaning tank (12) enters a filter frame (142) in the filter assembly (14) through a return pipe, and particles are filtered sequentially through two layers of filter cotton (143) to stay in the filter tank (141); and the liquid is pumped by a liquid pump (15), and flows into the cleaning tank (12) again through a pipeline and a cover plate (21) to form circulation;

step five, the first bearing box (241), the second bearing box (246) and the third bearing box (247) are vertically arranged in the cleaning pool (12) at the same intervals in the cleaning process, the pushing frame (26) is moved by controlling the telescopic driving of the electric plunger, the first bearing box (241) is driven to slide in the first poking groove through the poking rod (6), the first bearing box (241) is driven to be limited by means of the mounting nut (242), the rotating shaft (222) is turned over for a certain angle to swing, liquid circulation among copper plates is promoted, cleaning efficiency is improved, and cleaning of residues is promoted;

step six, through the rotation of a driving motor (243), the shaft lever (245) is driven to rotate at first, and then the third bearing box (247) is driven to overturn to one side, and the second sliding rod slides in the second sliding way (5) along with the overturning of the third bearing box (247); the second bearing box (246) loses the limit of one end of the second slide bar in the second slide way (5) and can turn over to the same side; the second sliding rod can also be driven to turn over when sliding to the other end of the second slideway (5), and after the second bearing box (246) turns over to the maximum angle, the first sliding rod (111) is arranged in the other end of the first slideway (4); at the moment, the first bearing box (241), the second bearing box (246) and the third bearing box (247) are alternately arranged and opened once, so that the relative spacing of copper plates in the inner part is improved, and the cleaning flow promoting effect is enhanced;

step seven, after cleaning, lifting and resetting the bearing unit (24) through the hydraulic cylinder (16) to separate from the cleaning pool (12); the operation can be repeated, the electric copper plate swings and turns over to be opened, after the distance is increased, the fan (23) is controlled to drive, and air drying of all the wall surfaces of the copper plate is accelerated.