阅读说明：本技术 一种防断裂铜箔生箔装置及生箔方法 (Anti-fracture copper foil forming device and forming method ) 是由 毛伟鸿 孙凤岭 于 2020-11-17 设计创作，主要内容包括：本发明公开了一种防断裂铜箔生箔装置,涉及电解铜箔的生产设备技术领域。在本申请中,防断裂铜箔生箔装置,包括：机体设置在平面上,机体包括：底架的上表面设置有竖直的立柱；收集槽设置在底架的上表面；电解槽设置在底架的上表面,支撑架设置在电解槽的上方；输送装置设置在收集槽的左侧；旋转装置设置在电解槽和支撑架的中间；防断装置设置在支撑架的侧表面；清理装置设置在旋转装置的外周；收集槽的内部设置有清洗装置,清洗装置设置在收集槽的内部上方。本发明用于现有技术中铜箔生产后表面残留有硫酸铜溶液不能进行快速有效的清除造成铜箔表面氧化,降低了抗剥离强度并且生产的铜箔不能进行规格的变化种类单一。(The invention discloses a fracture-preventing copper foil generation device, and relates to the technical field of electrolytic copper foil production equipment. In the present application, a fracture-preventing copper foil generation device includes: the organism sets up on the plane, and the organism includes: the upper surface of the underframe is provided with a vertical upright post; the collecting tank is arranged on the upper surface of the bottom frame; the electrolytic cell is arranged on the upper surface of the bottom frame, and the support frame is arranged above the electrolytic cell; the conveying device is arranged on the left side of the collecting tank; the rotating device is arranged between the electrolytic bath and the support frame; the anti-breaking device is arranged on the side surface of the support frame; the cleaning device is arranged on the periphery of the rotating device; the inside of collecting vat is provided with belt cleaning device, and belt cleaning device sets up the inside top at the collecting vat. The copper foil surface oxidation cleaning agent is used for cleaning copper sulfate solution remained on the surface of the produced copper foil in the prior art, which can not be rapidly and effectively removed to cause the surface oxidation of the copper foil, the peel strength is reduced, and the produced copper foil can not be subjected to specification change with single type.)

1. An anti-fracture copper foil generation device, comprising:

the organism, the organism sets up on the plane, the organism includes:

the upper surface of the underframe is provided with a vertical upright post;

the collecting tank is arranged on the upper surface of the underframe and is positioned on the left side of the upper surface of the underframe, and the collecting tank is connected with the underframe;

the electrolytic tank is arranged on the upper surface of the bottom frame, the electrolytic tank is positioned on the right side of the collecting tank, the electrolytic tank is connected with the bottom frame, the interior of the electrolytic tank is hollow, and the upper surface of the electrolytic tank is provided with an opening;

the support frame is arranged above the electrolytic bath, the right side of the support frame is connected with the right end of the bottom frame, the left side of the support frame is connected with the upper surface of the collecting tank, and a space is reserved between the support frame and the electrolytic bath;

the conveying device is arranged on the left side of the collecting tank and is connected with the collecting tank;

the rotating device is arranged between the electrolytic cell and the support frame, is matched and connected with the upright post of the underframe, and has a width smaller than that of the electrolytic cell;

the anti-breaking device is arranged on the side surface of the support frame, is movably arranged on the side surface of the support frame, and is in fit connection with the rotating device;

the cleaning device is arranged on the periphery of the rotating device and is in fit connection with the rotating device;

and a cleaning device is arranged in the collecting tank, is arranged above the inside of the collecting tank and is used for cleaning the surface of the copper foil.

2. The rupture-preventing copper foil green sheet device as set forth in claim 1, further comprising:

the air drying device is arranged inside the collecting tank, is matched and connected with the collecting tank and is used for drying the surface of the copper foil;

the stabilizing device is arranged inside the collecting tank and located on the right side of the air drying device, a distance is reserved between the stabilizing device and the air drying device, and the stabilizing device is used for limiting in the copper foil conveying process.

3. The anti-fracture copper foil raw device according to claim 1, wherein a transmission shaft is arranged inside the collecting tank, is movably connected with the collecting tank, and is used for conveying copper foil to the conveying device;

the conveying device comprises:

the conveying motor is arranged on the left side surface of the collecting tank and is fixedly connected with the collecting tank;

the squeeze roll, the squeeze roll sets up inside the left side stand of collecting vat, the squeeze roll is provided with two, the periphery laminating copper foil drive of squeeze roll the copper foil removes, the squeeze roll passes through conveying motor control is rotatory, the periphery of squeeze roll is provided with the circle that absorbs water.

4. The rupture-preventing copper foil green foil device according to claim 1, wherein the rotating device comprises:

the cathode roller is arranged in the electrolytic tank, the periphery of the cathode roller is lower than the surface of the electrolytic tank, the cathode roller is movably connected with the upright post of the underframe, and the width of the cathode roller is smaller than that of the electrolytic tank;

and the pasting plate is arranged on the surface of the cathode roller, and the pasting plate and the cathode roller have the same diameter.

5. The rupture-preventing copper foil green foil device according to claim 1, wherein the rupture-preventing device comprises:

the rotating shaft is arranged inside the supporting frame and is movably connected with the supporting frame;

the isolation belt is arranged on the outer side surface of the support frame and is connected with the rotating shaft in a matching manner;

the sliding block is arranged inside the supporting frame and is movably connected with the supporting frame;

the limiting spring is arranged on the right side of the sliding block and is in fit connection with the sliding block;

and the moving plate is arranged on the left side of the sliding block and fixedly connected with the sliding block.

6. The anti-fracture copper foil raw device according to claim 5, wherein five rotating shafts are provided, one side of the isolation belt is attached to the periphery of the rotating device, two isolation belts are symmetrically arranged on two sides of the supporting frame, and the rotating shafts are matched with the rotating device to tension the isolation belt;

one of the rotating shafts is arranged inside the sliding block, and the sliding block controls and moves one of the rotating shafts connected with the sliding block through horizontal moving so as to adjust the tension of the isolation belt.

7. The rupture-preventing copper foil production device according to claim 1, wherein the cleaning device comprises:

the first sliding rod is arranged inside the supporting frame and movably connected with the supporting frame, the first sliding rod is arc-shaped, and a tooth groove is formed in the outer arc surface of the first sliding rod;

a first cleaning plate is arranged on the surface of the arc-shaped end of one side of the first sliding rod and attached to the rotating device;

the second sliding rod is arranged inside the supporting frame and movably connected with the supporting frame, the second sliding rod is arc-shaped, a tooth groove is formed in the outer arc surface of the second sliding rod, and the second sliding rod and the first sliding rod are concentric circles;

one side of the second sliding rod is jointed with one side of the first sliding rod and can mutually rotate and slide;

a second cleaning plate is arranged on the surface of the arc-shaped end of one side of the second sliding rod, the second cleaning plate is attached to the rotating device, and the width of the second cleaning plate is larger than that of the first cleaning plate;

the pushing plate is arranged on the upper surface of the second sliding rod and fixedly connected with the second sliding rod;

the rolling shaft is arranged inside the support frame and is movably connected with the support frame, a tooth socket is arranged on the peripheral surface of the rolling shaft, the rolling shaft is respectively meshed and connected with the first sliding rod and the second sliding rod, and the middle of the rolling shaft is movably matched with the first sliding rod and the second sliding rod;

the driving motor is arranged in the supporting frame and is connected with the rolling shaft in a matched mode through a connecting belt.

8. The rupture-preventing copper foil green foil device as claimed in claim 2, wherein the air-drying device comprises:

the main shell is arranged inside the collecting tank, the main shell is fixedly connected with the collecting tank, and an accommodating space is reserved inside the main shell;

the scraper is arranged on the lower surface of the main shell and is attached to the surface of the copper foil;

the air drying pipe is arranged inside the main shell and penetrates through the main shell, and a gap is reserved between the air outlet end of the air drying pipe and the surface of the copper foil.

9. The rupture-preventing copper foil raw foil device according to claim 2, wherein the stabilizing devices are provided in two, the stabilizing devices are symmetrically arranged, and the stabilizing devices comprise:

the guide plate is arranged inside the collecting tank and fixedly connected with the collecting tank;

the stabilizing plate is arranged inside the guide plate and is movably connected with the guide plate;

the extrusion ball is arranged in the stabilizing plate and movably connected with the stabilizing plate, the extrusion ball is arranged on the surface of the stabilizing plate, and the periphery of the extrusion ball is attached to the copper foil.

10. A foil generation method of a fracture-preventing copper foil generation device comprises the following steps:

the electrolytic copper foil deposited on the surface of the cathode roller by the rotation of the cathode roller moves to a transmission shaft along with the rotation of the cathode roller out of the electrolytic bath, and the electrolytic copper foil is driven to pass through a stabilizing device by the transmission shaft;

when the electrolytic copper foil passes through the stabilizing device, the two sides of the electrolytic copper foil are fixedly limited in the moving direction of the electrolytic copper foil through the extrusion balls, the electrolytic copper foil continuously moves leftwards to pass through the cleaning device, and the cleaning device sprays liquid to spray and clean the surface of the electrolytic copper foil to remove copper sulfate on the surface of the electrolytic copper foil;

the cleaned electrolytic copper foil moves to an air drying device, a scraper of the air drying device is used for scraping cleaning liquid on the surface of the electrolytic copper foil, the cleaning liquid is stopped at the right side of the scraper, the electrolytic copper foil entering the lower part of the main shell air-dries the surface of the electrolytic copper foil through an air drying pipe, the air-dried electrolytic copper foil moves to a conveying device, the electrolytic copper foil is subjected to shaping conveying through an extrusion roller of the conveying device, and the final surface is cleaned;

the cleaning device cleans the surface of the cathode roller while conveying the electrolytic copper foil, the first cleaning plate cleans the surface of the cathode roller mainly producing the electrolytic copper foil independently to reduce copper sulfate liquid on the surface of the cathode roller when the cathode roller rotates, the second cleaning plate cleans the whole cathode roller to reduce residual copper sulfate liquid on the surface of the cathode roller contacted with the isolation belt, and the first scraper plate and the second scraper plate guide the cleaned copper sulfate liquid;

the two side circumferential surfaces of the cathode roller are jointed through the breakage preventing device, so that the specification of the electrolytic copper foil generated on the surface of the cathode roller is changed, and the production specification of the electrolytic copper foil is limited between the intervals of the isolation belts.

Technical Field

The invention relates to the technical field of electrolytic copper foil production equipment, in particular to a fracture-preventing copper foil generating device and a generating method.

Background

The electrolytic copper foil is an important material for manufacturing copper clad laminates, printed circuit boards and lithium ion batteries. In the rapid development of the electronic information industry, the electrolytic copper foil is called a "neural network" for signal and power transmission and communication of electronic products.

The electrolytic copper foil is manufactured by a method of separating copper by an electrochemical principle by energizing a rotating metal cylinder in a copper sulfate solution, and a "foil" shape is gradually generated on the surface of the metal cylinder as the metal cylinder rotates, and the formed foil is an electrolytic copper foil and is called a foil generator by a production facility.

At present, when most of foil generating machines work, when an electrolytic copper foil deposited on the surface of a cathode roller rotates out of an anode tank (an electrolytic tank) along with the cathode roller, a copper sulfate solution in an electrolytic area is attached to the surface of the electrolytic copper foil, the copper foil with the copper sulfate solution attached to the surface needs to be subjected to surface treatment of subsequent processes, otherwise, the surface of the electrolytic copper foil is seriously oxidized, so that the surface of the electrolytic copper foil is blackened, the dip-soldering resistance index and the anti-stripping strength are seriously affected, and an oxide layer on the surface of the copper foil is difficult to remove in the subsequent surface treatment processes, so that the quality and the service life of the electrolytic copper foil are reduced, a large amount of products are scrapped seriously, and the copper foil can only be produced into the copper foil with the same.

Disclosure of Invention

The invention aims to provide a fracture-preventing copper foil forming device, which is used for solving the problems that in the prior art, copper foil surface oxidation is caused because copper sulfate solution remained on the surface of a copper foil after the copper foil is produced and cannot be rapidly and effectively removed, the peeling strength is reduced, and the produced copper foil cannot be subjected to single specification change.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: an anti-fracture copper foil forming device comprises: the organism, this organism setting is on the plane, and this organism includes: the upper surface of the underframe is provided with a vertical upright post; the collecting tank is arranged on the upper surface of the underframe and is positioned on the left side of the upper surface of the underframe, and the collecting tank is connected with the underframe; the electrolytic bath is arranged on the upper surface of the bottom frame, is positioned on the right side of the collecting tank, is connected with the bottom frame, is hollow and has an opening on the upper surface; the supporting frame is arranged above the electrolytic bath, the right side of the supporting frame is connected with the right end of the bottom frame, the left side of the supporting frame is connected with the upper surface of the collecting tank, and a space is reserved between the supporting frame and the electrolytic bath; the conveying device is arranged on the left side of the collecting tank and is connected with the collecting tank; the rotating device is arranged between the electrolytic cell and the support frame, is matched and connected with the upright post of the underframe, and has a width smaller than that of the electrolytic cell; the anti-breaking device is arranged on the side surface of the support frame, is movably arranged on the side surface of the support frame, and is connected with the rotating device in a matching way; the cleaning device is arranged on the periphery of the rotating device and is in fit connection with the rotating device; a cleaning device is arranged in the collecting tank, is arranged above the inside of the collecting tank and is used for cleaning the surface of the copper foil.

In the technical scheme, the anti-breaking device, the cleaning device, the air drying device and the stable decoration are used in a matched mode, the specification of the electrolytic copper foil is changed by utilizing the isolation belt of the anti-breaking device during production of the copper foil, so that the electrolytic copper foil with different requirements is corresponded, the manufacturing type of the electrolytic copper foil is improved, after the electrolytic copper foil is used for a long time, the surface can be corroded to reduce the quality of the copper foil, the surface of the electrolytic copper foil is subjected to continuous cleaning, the metal activity of the surface of the cathode roller is kept, the production quality of the copper foil is further ensured, the stabilizing device is required to pass through the cleaning device and the air drying device during the conveying process of the electrolytic copper foil, the fluctuation of the electrolytic copper foil can be generated during conveying, the moving track deviation is caused, the cleaning effect of the electrolytic copper foil is reduced, and the cleaning device and the air drying device are used for cleaning the surface of the electrolytic copper foil to remove copper sulfate .

Further, in the embodiment of the present invention, the anti-fracture copper foil generation apparatus further includes: the air drying device is arranged inside the collecting tank, is matched and connected with the collecting tank and is used for drying the surface of the copper foil; stabilising arrangement, this stabilising arrangement set up in the inside of this collecting vat, and this stabilising arrangement is located this right side of air-drying the device, and this stabilising arrangement and this air-dry leave the interval between the device, and this stabilising arrangement is arranged in the copper foil transportation process and carries on spacingly.

Further, in the embodiment of the present invention, a transmission shaft is disposed inside the collecting tank, the transmission shaft is movably connected to the collecting tank, and the transmission shaft is used for transmitting the copper foil to the conveying device; the conveying device comprises: the conveying motor is arranged on the left side surface of the collecting tank and is fixedly connected with the collecting tank; the squeeze roll, this squeeze roll setting is inside the left side stand of this collecting vat, and this squeeze roll is provided with two, and this copper foil of the periphery laminating copper foil of this squeeze roll drives this copper foil and removes, and this squeeze roll is rotatory through this conveyor motor control, and the periphery of this squeeze roll is provided with the circle that absorbs water.

Further, in an embodiment of the present invention, the rotating device includes: the cathode roller is arranged in the electrolytic tank, the periphery of the cathode roller is lower than the surface of the electrolytic tank, the cathode roller is movably connected with the upright post of the underframe, and the width of the cathode roller is smaller than that of the electrolytic tank; and the pasting plate is arranged on the surface of the cathode roller, and the pasting plate and the cathode roller have the same diameter.

Further, in an embodiment of the present invention, the disconnection preventing device includes: the rotating shaft is arranged inside the supporting frame and is movably connected with the supporting frame; the isolation belt is arranged on the outer side surface of the support frame and is connected with the rotating shaft in a matching way; the sliding block is arranged inside the supporting frame and is movably connected with the supporting frame; the limiting spring is arranged on the right side of the sliding block and is in fit connection with the sliding block; and the moving plate is arranged on the left side of the sliding block and is fixedly connected with the sliding block.

Furthermore, in the embodiment of the present invention, five rotating shafts are provided, one side of the isolation belt is attached to the periphery of the rotating device, two isolation belts are symmetrically provided on two sides of the supporting frame, and the rotating shafts and the rotating device cooperate to tension the isolation belt; one of them this pivot setting is in the inside of this sliding block, and this sliding block is controlled one of them and this pivot of being connected through left and right sides sideslip and is removed and then adjust this median tensile force.

Further, in an embodiment of the present invention, the cleaning apparatus includes: the first sliding rod is arranged inside the supporting frame and movably connected with the supporting frame, the first sliding rod is arc-shaped, and the outer arc surface of the first sliding rod is provided with a tooth socket; a first cleaning plate is arranged on the surface of the arc-shaped end of one side of the first sliding rod and is attached to the rotating device; the second sliding rod is arranged inside the supporting frame and movably connected with the supporting frame, the second sliding rod is arc-shaped, the outer arc surface of the second sliding rod is provided with a tooth socket, and the second sliding rod and the first sliding rod are concentric circles; one side of the second sliding rod is jointed with one side of the first sliding rod and can mutually rotate and slide; a second cleaning plate is arranged on the surface of the arc-shaped end of one side of the second sliding rod, the second cleaning plate is attached to the rotating device, and the width of the second cleaning plate is greater than that of the first cleaning plate; the pushing plate is arranged on the upper surface of the second sliding rod and fixedly connected with the second sliding rod; the rolling shaft is arranged in the support frame and is movably connected with the support frame, a tooth socket is arranged on the peripheral surface of the rolling shaft, the rolling shaft is respectively meshed and connected with the first sliding rod and the second sliding rod, and the middle of the rolling shaft is movably matched with the first sliding rod and the second sliding rod; the driving motor is arranged in the supporting frame and is connected with the rolling shaft in a matching way through a connecting belt.

Further, in an embodiment of the present invention, the seasoning apparatus includes: the main shell is arranged inside the collecting tank, fixedly connected with the collecting tank and provided with an accommodating space inside; the scraper is arranged on the lower surface of the main shell and is attached to the surface of the copper foil; the air-dry pipe, this air-dry pipe setting is in the inside of this main shell, and this air-dry pipe passes this main shell, and the air-out end and this copper foil surface of this air-dry pipe leave the interval.

Further, in an embodiment of the present invention, the stabilizing device is provided in two, the stabilizing device being symmetrically disposed, the stabilizing device including: the guide plate is arranged inside the collecting tank and fixedly connected with the collecting tank; the stabilizing plate is arranged inside the guide plate and is movably connected with the guide plate; the extrusion ball is arranged in the stabilizing plate and movably connected with the stabilizing plate, the extrusion ball is arranged on the surface of the stabilizing plate, and the periphery of the extrusion ball is attached to the copper foil.

The embodiment of the invention also discloses a foil generating method of the anti-fracture copper foil generating device, which comprises the following steps:

the electrolytic copper foil deposited on the surface of the cathode roller by the rotation of the cathode roller moves to a transmission shaft along with the rotation of the cathode roller out of the electrolytic bath, and the electrolytic copper foil is driven to pass through a stabilizing device by the transmission shaft;

when the electrolytic copper foil passes through the stabilizing device, the two sides of the electrolytic copper foil are fixedly limited in the moving direction of the electrolytic copper foil through the extrusion balls, the electrolytic copper foil continuously moves leftwards to pass through the cleaning device, and the cleaning device sprays liquid to spray and clean the surface of the electrolytic copper foil to remove copper sulfate on the surface of the electrolytic copper foil;

the cleaned electrolytic copper foil moves to an air drying device, a scraper of the air drying device is used for scraping cleaning liquid on the surface of the electrolytic copper foil, the cleaning liquid is stopped at the right side of the scraper, the electrolytic copper foil entering the lower part of the main shell air-dries the surface of the electrolytic copper foil through an air drying pipe, the air-dried electrolytic copper foil moves to a conveying device, the electrolytic copper foil is subjected to shaping conveying through an extrusion roller of the conveying device, and the final surface is cleaned;

the cleaning device cleans the surface of the cathode roller while conveying the electrolytic copper foil, the first cleaning plate cleans the surface of the cathode roller mainly producing the electrolytic copper foil independently to reduce copper sulfate liquid on the surface of the cathode roller when the cathode roller rotates, the second cleaning plate cleans the whole cathode roller to reduce residual copper sulfate liquid on the surface of the cathode roller contacted with the isolation belt, and the first scraper plate and the second scraper plate guide the cleaned copper sulfate liquid;

the two side circumferential surfaces of the cathode roller are jointed through the breakage preventing device, so that the specification of the electrolytic copper foil generated on the surface of the cathode roller is changed, and the production specification of the electrolytic copper foil is limited between the intervals of the isolation belts.

The invention has the beneficial effects that:

according to the anti-breakage copper foil generating device, when the electrolytic copper foil is produced, the anti-breakage device limits the cathode roller so as to change the production specification of the electrolytic copper foil, so that the cathode roller can produce electrolytic copper foils with different specifications, the use adaptability of the same cathode roller is improved (the width of the cathode roller corresponds to the width of the electrolytic copper foil in the production of the existing electrolytic copper foil), the electrolytic copper foils with different specifications cannot be produced, and the width of the electrolytic copper foil corresponds to the distance of the isolation belts by limiting the width of the cathode roller through the isolation belts so as to change the specification of the electrolytic copper foil. Thereby clear up the quality degradation that the corruption that reduces the cathode roll surface and produce caused electrolytic copper foil through cleaning device to cathode roll surface, thereby utilize first cleaning board and second cleaning board to clear up the whole periphery of cathode roll and improve electrolytic copper foil's production quality, scrape the impurity of flitch to the clearance through first scraping flitch and second and carry out the water conservancy diversion after the clearance and prevent to drop and float on the surface in the electrolysis trough. Through air-drying device and stabilising arrangement, thereby utilize stabilising arrangement to fix the both sides of electrolytic copper foil at the in-process that electrolytic copper foil carried thereby make the position of the most easy skew of side restrict and then prevent electrolytic copper foil and remove the phenomenon that the in-process takes place the unable effective washing of skew track, and the electrolytic copper foil can not or less can take place the shake this be through the fixed skew phenomenon that just can very effectual restriction electrolytic copper foil of stabilising arrangement to electrolytic copper foil both sides when drying device and belt cleaning device to electrolytic copper foil surface clearance.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a front view of a rupture prevention copper foil forming apparatus according to an embodiment of the present invention.

Fig. 2 is a left side cross-sectional internal schematic view of a rupture prevention copper foil generation device according to an embodiment of the invention.

Fig. 3 is a partially enlarged schematic view of a portion a of fig. 2.

Fig. 4 is a partially enlarged schematic view of fig. 2 at B.

Fig. 5 is a schematic cross-sectional view of the inside of the supporting frame of the anti-fracture copper foil generation device according to the embodiment of the invention.

Fig. 6 is a schematic view of a cleaning device of a fracture-preventing copper foil generating device according to an embodiment of the invention.

Fig. 7 is a partially enlarged schematic view of C in fig. 6.

Fig. 8 is a schematic working process diagram of a fracture-preventing copper foil generating device according to an embodiment of the invention.

10. Body 101, underframe 102, collecting tank

1021. Transfer shaft 103, electrolytic cell 104, support frame

20. Conveying device 201, conveying motor 202 and extrusion roller

30. Rotating device 301, cathode roller 302 and pasting plate

40. Anti-breaking device 401, rotating shaft 402 and isolation belt

403. Limiting spring 404, sliding block 405 and moving plate

50. Cleaning device 501, first sliding rod 5011 and first cleaning plate

502. A second sliding rod 5021, a second cleaning plate 503 and a pushing plate

504. A driving motor 505, a rolling shaft 506 and a first scraping plate

5061. Buffer wall 507, second scraper 60 and copper foil

70. Air-drying device 701, air-drying pipe 702 and main shell

703. Scraping plate

80. Stabilizing device 801, guide plate 802 and stabilizing plate

803. Extrusion ball

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clear and fully described, embodiments of the present invention are further described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some embodiments of the invention and are not limiting of the invention, and that all other embodiments obtained by those of ordinary skill in the art without the exercise of inventive faculty are within the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art that the embodiments may be practiced without these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

as shown in fig. 1 and 2, the present embodiment discloses a cracking-proof copper foil 60 foil generating device, which includes: organism 10, conveyor 20, rotary device 30, cleaning device 50, prevent disconnected device 40, organism 10 sets up on the plane, and organism 10 includes: the device comprises a base frame 101, a collecting tank 102, an electrolytic cell 103 and a support frame 104, wherein vertical upright posts are arranged on the upper surface of the base frame 101; the collecting tank 102 is arranged on the upper surface of the base frame 101, the collecting tank 102 is positioned on the left side of the upper surface of the base frame 101, and the collecting tank 102 is connected with the base frame 101; the electrolytic cell 103 is arranged on the upper surface of the bottom frame 101, the electrolytic cell 103 is positioned on the right side of the collecting tank 102, the electrolytic cell 103 is connected with the bottom frame 101, the interior of the electrolytic cell 103 is hollow, and the upper surface of the electrolytic cell 103 is open; the supporting frame 104 is arranged above the electrolytic cell 103, the right side of the supporting frame 104 is connected with the right end of the bottom frame 101, the left side of the supporting frame 104 is connected with the upper surface of the collecting tank 102, and a space is reserved between the supporting frame 104 and the electrolytic cell 103; the conveying device 20 is arranged on the left side of the collecting tank 102, and the conveying device 20 is connected with the collecting tank 102; the rotating device 30 is arranged between the electrolytic cell 103 and the support frame 104, the rotating device 30 is matched and connected with the upright post of the underframe 101, and the width of the rotating device 30 is smaller than that of the electrolytic cell 103; the anti-breaking device 40 is arranged on the side surface of the support frame 104, the anti-breaking device 40 is movably arranged on the side surface of the support frame 104, and the anti-breaking device 40 is connected with the rotating device 30 in a matching way; the cleaning device 50 is arranged on the periphery of the rotating device 30, and the cleaning device 50 is attached to the rotating device 30; a cleaning device is arranged inside the collecting groove 102, is arranged above the inside of the collecting groove 102, and is used for cleaning the surface of the copper foil 60.

As shown in fig. 3 and 4, the anti-fracture copper foil 60 foil-producing device further includes: the air drying device 70 and the stabilizing device 80, wherein the air drying device 70 is arranged inside the collecting tank 102, the air drying device 70 is connected with the collecting tank 102 in a matched mode, and the air drying device 70 is used for drying the surface of the copper foil 60; stabilising arrangement 80 sets up in the inside of collecting vat 102, and stabilising arrangement 80 is located the right side of air-drying device 70, and stabilising arrangement 80 and air-drying device 70 leave the interval between, and stabilising arrangement 80 is arranged in the copper foil 60 transportation process spacing.

A transmission shaft 1021 is arranged inside the collecting tank 102, the transmission shaft 1021 is movably connected with the collecting tank 102, and the transmission shaft 1021 is used for transmitting the copper foil 60 to the conveying device 20; the conveying device 20 includes: the conveying motor 201 is arranged on the left side surface of the collecting tank 102, and the conveying motor 201 is fixedly connected with the collecting tank 102; squeeze roll 202 sets up inside the left side stand of collecting vat 102, and squeeze roll 202 is provided with two, and squeeze roll 202's periphery laminating copper foil 60 drives copper foil 60 and removes, and squeeze roll 202 is rotatory through conveying motor 201 control, and squeeze roll 202's periphery is provided with the circle that absorbs water.

As shown in fig. 6, the rotating device 30 includes: the cathode roller 301 is arranged in the electrolytic tank 103, the periphery of the cathode roller 301 is lower than the surface of the electrolytic tank 103, the cathode roller 301 is movably connected with the upright post of the underframe 101, and the width of the cathode roller 301 is smaller than that of the electrolytic tank 103; and a pasting plate 302, wherein the pasting plate 302 is arranged on the surface of the cathode roller 301, and the pasting plate 302 and the cathode roller 301 have the same diameter.

As shown in fig. 5 and 6, the breakage preventing device 40 includes: the device comprises a rotating shaft 401, a sliding block 404, an isolation belt 402, a limiting spring 403 and a moving plate 405, wherein the rotating shaft 401 is arranged inside a support frame 104, and the rotating shaft 401 is movably connected with the support frame 104; the isolation belt 402 is arranged on the outer side surface of the support frame 104, and the isolation belt 402 is connected with the rotating shaft 401 in a matching manner; the sliding block 404 is arranged inside the support frame 104, and the sliding block 404 is movably connected with the support frame 104; the limiting spring 403 is arranged on the right side of the sliding block 404, and the limiting spring 403 is attached to the sliding block 404; the moving plate 405 is disposed on the left side of the slider 404, and the moving plate 405 is fixedly connected to the slider 404. The cathode roller 301 is limited by the anti-breaking device 40, so that the manufactured electrolytic copper foil 60 can change the specification without corresponding to the width of the cathode roller 301, and the use adaptability of the cathode roller 301 is improved.

Five rotating shafts 401 are arranged, one side of each isolation belt 402 is attached to the periphery of the rotating device 30, two isolation belts 402 are symmetrically arranged on two sides of the supporting frame 104, and the rotating shafts 401 are matched with the rotating device 30 to tension the isolation belts 402; one of the rotating shafts 401 is arranged inside a sliding block 404, and the sliding block 404 controls and moves one of the rotating shafts 401 connected with the sliding block by transversely moving left and right so as to adjust the tension of the isolation belt 402.

As shown in fig. 6, the cleaning device 50 includes: the device comprises a first sliding rod 501, a second sliding rod 502, a pushing plate 503, a rolling shaft 505 and a driving motor 504, wherein the first sliding rod 501 is arranged inside a supporting frame 104, the first sliding rod 501 is movably connected with the supporting frame 104, the first sliding rod 501 is arc-shaped, and the outer arc surface of the first sliding rod 501 is provided with a tooth socket; a first cleaning plate 5011 is arranged on the arc-shaped end surface of one side of the first sliding rod 501, and the first cleaning plate 5011 is attached to the rotating device 30; the second sliding rod 502 is arranged inside the support frame 104, the second sliding rod 502 is movably connected with the support frame 104, the second sliding rod 502 is arc-shaped, the outer arc surface of the second sliding rod 502 is provided with a tooth socket, and the second sliding rod 502 and the first sliding rod 501 are concentric circles; one side of the second sliding rod 502 is engaged with one side of the first sliding rod 501 and can mutually rotate and slide; a second cleaning plate 5021 is arranged on the arc-shaped end surface of one side of the second sliding rod 502, the second cleaning plate 5021 is attached to the rotating device 30, and the width of the second cleaning plate 5021 is larger than that of the first cleaning plate 5011; the pushing plate 503 is arranged on the upper surface of the second sliding rod 502, and the pushing plate 503 is fixedly connected with the second sliding rod 502; the rolling shaft 505 is arranged in the support frame 104, the rolling shaft 505 is movably connected with the support frame 104, a tooth groove is arranged on the outer circumferential surface of the rolling shaft 505, the rolling shaft 505 is respectively engaged with the first sliding rod 501 and the second sliding rod 502, and the middle of the rolling shaft 505 is movably matched with the first sliding rod 501 and the second sliding rod 502; the driving motor 504 is disposed inside the supporting frame 104, and the driving motor 504 is connected with the rolling shaft 505 by a connecting belt. The cleaning device 50 cleans the circumferential surface of the cathode roller 301 completely, thereby preventing the surface of the cathode roller 301 from being corroded after long-term use, reducing the production quality of the electrolytic copper foil 60, continuously cleaning the circumferential surface of the cathode roller 301 by using the cleaning device 50, maintaining the production quality of the electrolytic copper foil 60 while producing the electrolytic copper foil 60, avoiding the need of a stopping device for processing the cathode roller 301, and improving the production continuity.

As shown in fig. 4, the seasoning apparatus 70 includes: the device comprises a main shell 702, a scraper 703 and an air drying pipe 701, wherein the main shell 702 is arranged inside a collecting tank 102, the main shell 702 is fixedly connected with the collecting tank 102, and an accommodating space is reserved inside the main shell 702; the scraper 703 is arranged on the lower surface of the main shell 702, and the scraper 703 is attached to the surface of the copper foil 60; the air drying pipe 701 is arranged inside the main shell 702, the air drying pipe 701 penetrates through the main shell 702, and a distance is reserved between the air outlet end of the air drying pipe 701 and the surface of the copper foil 60.

As shown in fig. 3, the two stabilizing devices 80 are provided, the stabilizing devices 80 are symmetrically provided, and the stabilizing devices 80 include: the device comprises a guide plate 801, a stabilizing plate 802 and a squeezing ball 803, wherein the guide plate 801 is arranged inside the collecting tank 102, and the guide plate 801 is fixedly connected with the collecting tank 102; the stabilizing plate 802 is arranged inside the guide plate 801, and the stabilizing plate 802 is movably connected with the guide plate 801; the squeeze ball 803 is provided inside the stabilizer 802, the squeeze ball 803 is movably connected to the stabilizer 802, the squeeze ball 803 is protruded from the surface of the stabilizer 802, and the copper foil 60 is bonded to the outer periphery of the squeeze ball 803. By the air drying device 70 and the stabilizing device 80, the residual copper sulfate liquid on the surface of the electrolytic copper foil 60 is removed when the electrolytic copper foil 60 is conveyed, so that the phenomenon that the electrolytic copper foil 60 is damaged and cannot be used due to oxidation on the surface of the electrolytic copper foil 60 is prevented, the electrolytic copper foil 60 is inevitably shaken when the copper sulfate liquid is removed, and the stabilizing device 80 is utilized to keep the moving track of the electrolytic copper foil 60 from deviating, so that the cleaning effect is ensured.

In the above technical solution, the anti-breaking device 40, the cleaning device 50, the air drying device 70 and the stable decoration are used in cooperation, when the copper foil 60 is produced, the specification of the electrolytic copper foil 60 is changed by using the isolation belt 402 of the anti-breaking device 40 so as to correspond to different required electrolytic copper foils 60, the manufacturing type of the electrolytic copper foil 60 is improved, after the electrolytic copper foil 60 is used for a long time, the surface is corroded to reduce the quality of the copper foil 60, the cleaning device 50 is used for the surface of the cathode roller 301, the continuous cleaning is performed so as to maintain the metal activity of the surface of the cathode roller 301 and further ensure the production quality of the copper foil 60, the stabilizing device 80 is used for passing through the cleaning device and the air drying device 70 in the conveying process of the electrolytic copper foil 60, the fluctuation of the electrolytic copper foil 60 may be generated in the conveying process so as to cause the deviation of the moving track, thereby reducing the cleaning effect of the electrolytic copper foil 60, and the cleaning device and the air drying The electrolytic copper foil 60 is prevented from being damaged by oxidation of the electrolytic copper foil 60 in the subsequent process.

Example two:

as in the first embodiment, as shown in fig. 6 and 7, the first cleaning plate 5011 and the second cleaning plate 5021 are provided with corrugations on the surface attached to the cathode roll 301, the width of the first cleaning plate 5011 is equal to the distance between the two spacers 402, and the width of the second cleaning plate 5021 is equal to the width of the cathode roll 301. The first scraping plate 506 is arranged on the left side of the cathode roller 301, the first scraping plate 506 is connected with the support frame 104, the first scraping plate 506 is arranged in a V shape, one side of the first scraping plate 506 is attached to the periphery of the cathode roller 301, one side of the first scraping plate 506 is also attached to the surface of the isolation belt 402, and one side of the first scraping plate 506 attached to the isolation point is provided with a buffer wall 5061; and the second scraping plate 507 is arranged on the right side of the cathode roller 301, the second scraping plate 507 is connected with the support frame 104, the second scraping plate 507 is arranged in a V shape, and one side of the second scraping plate 507 is attached to the periphery of the cathode roller 301. The circumferential surface of the cathode tube for producing the electrolytic copper foil 60 is cleaned by the first cleaning plate 5011, corrosive substances generated on the surface of the cathode roller 301 are scraped, so that the surface metal activity of the cathode roller 301 is ensured, the quality of the produced electrolytic copper foil 60 is kept uniform, and the second cleaning plate 5021 cleans the circumferential surface of the cathode roll 301 that originally adhered to the separator 402, the circumferential surface of the cathode roller 301 which cannot be cleaned originally is scraped by the second cleaning plate 5021 so as to ensure the sealing performance between the isolation belt 402 and the cathode roller 301, thereby ensuring that the electrolytic copper foil 60 is not brought out of the copper foil 60 at the sealing position of the isolation belt 402 and the cathode roller 301 when different specifications are manufactured so as to cause the side edge of the produced electrolytic copper foil 60 to have an edge corner, since the corrosive substances on the surface of the cathode roll 301 cause the separator 402 to generate a gap with the cathode roll 301 to deteriorate the sealability, and the sealing property between the separator 402 and the cathode roller 301 can be maintained by continuously cleaning the circumferential surface of the cathode roller 301 by the second cleaning plate 5021. The buffer wall 5061 can scrape the copper sulfate liquid on the outer side surface of the isolation belt 402, thereby reducing the phenomenon that the isolation belt 402 takes the copper sulfate liquid out to pollute the periphery of the whole device.

Example three:

as shown in fig. 8, there is finally provided a method for forming a raw foil of a fracture-preventing copper foil 60 raw foil device, comprising the steps of:

the electrolytic copper foil 60 deposited on the surface of the cathode roller 301 by the rotation of the cathode roller 301 moves to the transmission shaft 1021 along with the rotation of the cathode roller 301 out of the electrolytic bath 103, and the electrolytic copper foil 60 is driven by the transmission shaft 1021 to pass through the stabilizing device 80;

when the electrolytic copper foil 60 passes through the stabilizing device 80, the two sides of the electrolytic copper foil 60 are fixedly limited by the extrusion balls 803, the movement direction of the electrolytic copper foil 60 is limited, the electrolytic copper foil 60 continuously moves leftwards to pass through the cleaning device, and the cleaning device sprays liquid to spray and clean the surface of the electrolytic copper foil 60 to remove copper sulfate on the surface of the electrolytic copper foil 60;

the cleaned electrolytic copper foil 60 moves towards the air drying device 70, the cleaning liquid on the surface of the electrolytic copper foil 60 is scraped by using a scraper 703 of the air drying device 70 to stop the cleaning liquid at the right side of the scraper 703, the electrolytic copper foil 60 entering the lower part of the main shell 702 is air-dried on the surface of the electrolytic copper foil 60 through an air drying pipe 701, the air-dried electrolytic copper foil 60 moves towards the conveying device 20, and the electrolytic copper foil 60 is subjected to shaping conveying and final surface cleaning through an extrusion roller 202 of the conveying device 20;

when the electrolytic copper foil 60 is conveyed, the cleaning device 50 cleans the surface of the cathode roller 301, when the cathode roller 301 rotates, the first cleaning plate 5011 cleans the surface of the cathode roller 301 mainly generating the electrolytic copper foil 60 to reduce copper sulfate liquid on the surface of the cathode roller 301, the second cleaning plate 5021 cleans the whole cathode roller 301 to reduce the copper sulfate liquid remained on the surface of the cathode roller 301 contacted with the isolation belt 402, and the cleaned copper sulfate liquid is guided by the first scraper 506 and the second scraper 507;

the specification of the electrolytic copper foil 60 generated on the surface of the cathode roll 301 is changed by bonding the circumferential surfaces of both sides of the cathode roll 301 by the breakage preventing device 40, and the production specification of the electrolytic copper foil 60 is restricted to the pitch of the separator 402.

The anti-breakage copper foil 60 foil generation device has the advantages that when the electrolytic copper foil 60 is produced, the anti-breakage device 40 limits the cathode roller 301 so as to change the production specification of the electrolytic copper foil 60, so that the cathode roller 301 can produce the electrolytic copper foils 60 with different specifications, the use adaptability of the same cathode roller 301 is improved (because the existing electrolytic copper foil 60 corresponds to the width of the electrolytic copper foil 60 by the width of the cathode roller 301 in production), the electrolytic copper foils 60 with different specifications cannot be produced, and the cathode roller 301 is limited by the width of the isolation belt 402 so that the width of the electrolytic copper foil 60 corresponds to the distance of the isolation belt 402 and the specification of the electrolytic copper foil 60 is changed. The surface of the cathode roller 301 is cleaned by the cleaning device 50, so that the quality reduction of the electrolytic copper foil 60 caused by corrosion generated on the surface of the cathode roller 301 is reduced, the whole periphery of the cathode roller 301 is cleaned by the first cleaning plate 5011 and the second cleaning plate 5021, so that the production quality of the electrolytic copper foil 60 is improved, and cleaned impurities are guided by the first scraper plate 506 and the second scraper plate 507 after cleaning and prevented from falling in the electrolytic bath 103 and floating on the surface. Through the air-drying device 70 and the stabilizing device 80, the stabilizing device 80 is utilized to fix the two sides of the electrolytic copper foil 60 in the conveying process of the electrolytic copper foil 60, so that the position of the side edge which is most prone to shift is limited, and the phenomenon that the shifting track cannot be effectively cleaned in the moving process of the electrolytic copper foil 60 is prevented, and the phenomenon that the electrolytic copper foil 60 cannot or rarely shakes when the surface of the electrolytic copper foil 60 is cleaned through the air-drying device 70 and the cleaning device is that the shifting phenomenon of the electrolytic copper foil 60 can be effectively limited through the fixing of the stabilizing device 80 on the two sides of the electrolytic copper foil 60.

Although the illustrative embodiments of the present application have been described above to enable those skilled in the art to understand the present application, the present application is not limited to the scope of the embodiments, and various modifications within the spirit and scope of the present application defined and determined by the appended claims will be apparent to those skilled in the art from this disclosure.