CN110756508A - Surface treatment device for electrolytic copper foil before rolling - Google Patents

Abstract

The invention relates to a surface treatment device before winding of electrolytic copper foil, which comprises a bottom plate, a connecting frame, a cleaning frame, a lead-in roller, a winding wheel set, an adjusting roller and a wiping mechanism, wherein the cleaning frame is installed on the top of the left end of the bottom plate, the winding wheel set is installed on the inner wall of the cleaning frame, the connecting frame is arranged on the front side and the rear side above the cleaning frame, the connecting frame is of a U-shaped structure, the lower end of the connecting frame is installed on the top of the outer end of the bottom plate, the lead-in roller and the adjusting roller are respectively positioned on the left end and the right end above the cleaning frame, the lead-in roller and the adjusting roller are both installed between the connecting frames, the wiping mechanism is positioned on the. The method can solve the problems that the washing time of the existing electrolytic copper foil is not easy to control, the drying time of the electrolytic copper foil is increased due to overlong washing time, residual solution exists on the surface of the electrolytic copper foil due to shorter washing time, the wiping effect of the electrolytic copper foil on the surface is poor before drying treatment, and the like.

Description

Surface treatment device for electrolytic copper foil before rolling

Technical Field

The invention relates to the technical field of copper foil processing, in particular to a surface treatment device before an electrolytic copper foil is rolled.

Background

The electrolytic copper foil is an important material for manufacturing copper clad laminates, printed circuit boards and lithium ion batteries, and the main production procedures of the electrolytic copper foil comprise three steps of solution foil generation, surface treatment and product slitting.

In the three procedures of the electrolytic copper foil, an electrolytic copper foil winding roller is generally adopted to provide winding force, so that an electrolytic copper foil substrate sequentially passes through a foil producing solution and a surface treatment solution, the electrolytic copper foil needs to be washed after the surface treatment is finished, the washed electrolytic copper foil is wiped and dried, and finally the dried electrolytic copper foil is cut and wound; the method is characterized in that the surface treatment solution on the outer side surface of the electrolytic copper foil needs to be cleaned when the electrolytic copper foil is washed, the washing time of the electrolytic copper foil is generally regulated by controlling the winding speed of the electrolytic copper foil or increasing a washing water tank when the electrolytic copper foil is washed, the washing operation of the electrolytic copper foil in the mode can cause the washing time of the electrolytic copper foil to be difficult to control, the drying time of the electrolytic copper foil can be increased due to overlong washing time, the residual solution exists on the surface of the electrolytic copper foil due to short washing time, and the wiping effect on the surface of the electrolytic copper foil before the electrolytic copper foil is dried is poor.

Disclosure of Invention

In order to solve the problems, the invention provides a surface treatment device before the electrolytic copper foil is rolled, which comprises a bottom plate, a connecting frame, a cleaning frame, a leading-in roller, a winding wheel set, a regulating roller and a wiping mechanism, wherein the cleaning frame is arranged on the top of the left end of the bottom plate, the winding wheel set is arranged on the inner wall of the cleaning frame, the connecting frame is arranged on the front side and the rear side above the cleaning frame, the connecting frame is of a U-shaped structure, the lower end of the connecting frame is arranged on the top of the outer end of the bottom plate, the leading-in roller and the regulating roller are respectively positioned at the left end and the right end above the cleaning frame, the leading-in roller and the regulating roller are both arranged between the connecting frames, the wiping mechanism is positioned on the right side of the regulating roller, the wiping mechanism is arranged between the right ends of the connecting frames, the electrolytic copper foil needs to be washed after surface treatment such as an oxidation resisting layer, through twine electrolytic copper foil in the winding wheelset with different modes can change electrolytic copper foil's washing time, wipe the surface that the mechanism can wipe electrolytic copper foil between to electrolytic copper foil can be quick dry.

The winding wheel set comprises five winding wheels, the winding wheels are all installed between the inner walls of the cleaning frame, connecting lines among the axes of the five winding wheels form an M shape, and the five winding wheels can be used for winding the electrolytic copper foil in different forms so that the electrolytic copper foil is in proper water washing time.

The wiping mechanism comprises wiping rollers, a wiping motor, a wiping rotating shaft, wiping rollers, a wiping guide frame, a lower rotating motor, a lower rotating roller, a lower rotating shaft and a lower rotating block, the number of the wiping rollers is three, the wiping rollers are all arranged between the connecting frames, the wiping rollers are positioned above the two wiping rollers at the left end, and the wiping rollers are arranged on the middle part of the wiping rotating shaft;

the rear end of the wiping rotating shaft is mounted on a connecting frame at the rear end of the base plate through a bearing, the front end of the wiping rotating shaft penetrates through the connecting frame at the front end of the base plate, the front end of the wiping rotating shaft is connected with an output shaft of a wiping motor through a coupling, and the wiping motor is mounted on the connecting frame at the front end of the base plate through a motor sleeve;

the wiping guide is positioned on the right side of the wiping roller, the front end and the rear end of the wiping guide respectively penetrate through the connecting frame and are connected with the connecting frame, the lower rotary drum is positioned below the two wiping rollers at the right end, the lower rotary drum is arranged on the middle part of the lower rotary shaft, and the rear end of the lower rotary shaft is arranged on the connecting frame at the rear end of the bottom plate through a bearing;

the front end of the lower rotating shaft penetrates through a connecting frame at the front end of the bottom plate, the front end of the lower rotating shaft is connected with an output shaft of a lower rotating motor through a coupler, the lower rotating motor is installed on the connecting frame at the front end of the bottom plate through a motor sleeve, a lower rotating block is located at the lower end of a lower rotating cylinder, the lower rotating block is installed between the connecting frames, in particular, in operation, the wiping mechanism can wipe the electrolyzed copper foil after being washed, so that the drying effect and speed of the electrolyzed copper foil are increased, when the electrolyzed copper foil is conveyed rightwards from the adjusting roller, the wiping roller can guide, and the upper side face and the lower side face of the electrolyzed copper foil can be wiped respectively through the wiping roller.

As a preferred technical scheme of the invention, a plurality of groups of round holes are uniformly arranged on the middle part of the connecting frame, adjusting plates are respectively arranged at the front end and the rear end of each adjusting roller, a round hole is respectively arranged at the left end and the right end of each adjusting plate, the distance between the round holes on the adjusting plates is equal to the distance between each group of round holes on the connecting frame, a bolt is inserted into each round hole on each adjusting plate, the bolt passes through the round holes on the connecting frame and then is locked by a nut, when the electrolytic copper foil is wound on the winding wheels in different modes, the adjusting rollers can be matched to adjust the position, and the winding wheels which are not wound with the electrolytic copper foil are prevented from obstructing.

In a preferred embodiment of the present invention, the wiping roller located at the middle of the connecting frame is higher than the two wiping rollers located at the outer ends of the connecting frame, and the position of the wiping roller located at the middle is higher so that the electrolytic copper foil can be in a state of being raised when the electrolytic copper foil performs the wiping action of the upper side surface, so as to increase the wiping effect of the electrolytic copper foil, and the electrolytic copper foil is in a state of being lowered when the electrolytic copper foil performs the wiping action of the lower side surface.

As a preferable technical scheme of the invention, the leading-in roller, the adjusting roller and the two wiping rollers positioned at the outer end of the connecting frame are all positioned at the same height, and the arrangement can increase the stability of the electrolytic copper foil transmission.

As a preferred technical scheme of the invention, flexible sponge sleeve pads are arranged on the outer side surfaces of the wiping roller and the lower rotating roller; the lower rotary pressing block is of an arc-shaped structure, the arc-shaped chamfers are arranged at the left end and the right end of the lower rotary pressing block, water leakage holes are uniformly formed in the lower rotary pressing block, the water absorption effect of the sponge sleeve pad of the lower rotary pressing block can be improved by the sponge sleeve pad of the lower rotary pressing block when the lower rotary pressing block rotates to perform a wiping action and contacts with the lower end of the lower rotary pressing block, the lower rotary pressing block can extrude and contract the sponge sleeve pad arranged on the lower rotary pressing block, and therefore moisture of the sponge sleeve pad on the lower rotary pressing block can flow out through the water leakage holes formed in the lower rotary pressing block, and.

According to a preferred technical scheme of the invention, the wiping guide frame is of a frame structure, the left end of the wiping guide frame is provided with a drainage plate with an outer end inclined upwards, the top of the right end of the wiping guide frame is connected with an extrusion plate with an arc structure, the extrusion plate is positioned above the wiping guide frame, the upper end and the lower end of the extrusion plate are both provided with guide plates inclined outwards, when the wiping roller performs rotary wiping action, the right end of a sponge sleeve pad on the outer side of the wiping roller can be contacted with the extrusion plate before the extrusion plate, the guide plate on the upper end of the extrusion plate can guide the sponge sleeve pad on the outer side of the wiping roller, so that the sponge sleeve pad on the outer side of the wiping roller is extruded by the extrusion plate, extruded water can flow into the wiping guide frame along the guide plate on the lower end of the extrusion plate, and the drainage.

As a preferred technical scheme of the invention, the outer end of the drainage plate is of an arc structure, the lower side wall of the right end of the wiping guide frame is symmetrically provided with water guide chutes, the water guide chutes penetrate through the outer side wall of the wiping guide frame, and the water pouring chutes on the wiping guide frame can guide water to the outer end of the wiping guide frame, so that the water squeezed out by the wiping roller can flow into the water storage frame.

As a preferred technical scheme, an L-shaped plate is arranged in the middle of the right end of the connecting frame, a water storage frame is placed on the L-shaped plate, and the water storage frame can contain water squeezed out of the wiping roller and the lower rotating roller.

The invention has the beneficial effects that:

the method can adjust the corresponding cleaning time according to the amount of the surface treatment solution on the outer side surface of the electrolytic copper foil under the condition of not changing the winding speed of the electrolytic copper foil, so that the electrolytic copper foil can be in proper cleaning time, and the cleaning effect of the electrolytic copper foil is improved;

the five winding wheels can wind the electrolytic copper foil in various forms, the cleaning time of the electrolytic copper foil in the cleaning frame can be changed under the condition of constant winding speed, so that the electrolytic copper foil is in proper water cleaning time, the influence on subsequent treatment caused by incomplete cleaning and excessive cleaning of the electrolytic copper foil is prevented, and meanwhile, the adjusting rollers can be matched for adjusting the position, so that the winding wheels which are not wound with the electrolytic copper foil are prevented from obstructing the conveying of the electrolytic copper foil;

and thirdly, the wiping mechanism can wipe the washed electrolytic copper foil so as to increase the drying effect and speed of the electrolytic copper foil.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of the present invention between the connecting bracket and the wiping mechanism;

FIG. 4 shows a first winding pattern of the electrolytic copper foil according to the present invention;

FIG. 5 is a second winding pattern of the electrolytic copper foil according to the present invention;

FIG. 6 shows a third winding method of the electrolytic copper foil according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Example one

As shown in fig. 1 to 4, a surface treatment device before rolling of an electrolytic copper foil comprises a bottom plate 1, a connecting frame 2, a cleaning frame 3, a guiding-in roller 4, a winding wheel set 5, a regulating roller 6 and a wiping mechanism 8, wherein the cleaning frame 3 is installed on the top of the left end of the bottom plate 1, the winding wheel set 5 is installed on the inner wall of the cleaning frame 3, the connecting frame 2 is respectively arranged on the front side and the rear side above the cleaning frame 3, the connecting frame 2 is of a U-shaped structure, the lower end of the connecting frame 2 is installed on the top of the outer end of the bottom plate 1, the guiding-in roller 4 and the regulating roller 6 are respectively arranged at the left end and the right end above the cleaning frame 3, the guiding-in roller 4 and the regulating roller 6 are both installed between the connecting frames 2, the wiping mechanism 8 is arranged at the right side of the regulating roller 6, the wiping mechanism 8 is installed between the right ends of, then will electrolyze the copper foil and dry the rolling, leading-in roller 4 can convey the electrolytic copper foil after surface treatment to wash in the frame 3, through twine electrolytic copper foil on winding wheelset 5 with different modes can change the washing time of electrolytic copper foil, wipe the mechanism 8 and can wipe the surface of electrolytic copper foil between so that electrolytic copper foil can be fast dry.

The winding wheel set 5 comprises five winding wheels 5a, the winding wheels 5a are all installed between the inner walls of the cleaning frame 3, the connecting lines between the axes of the five winding wheels 5a form an 'M' shape, and the five winding wheels 5a can wind the electrolytic copper foil in different forms so that the electrolytic copper foil is in a proper water washing time.

Evenly be provided with the multiunit round hole on the middle part of link 2, both ends all are provided with regulating plate 61 around regulating roller 6, both ends all are provided with a round hole about regulating plate 61, and the interval between every group round hole on the interval of the round hole on regulating plate 61 and link 2 equals, bolt 62 has all alternate in every round hole on regulating plate 61, bolt 62 passes and locks through the nut behind the round hole on link 2, when electrolytic copper foil twines on winding wheel 5a with the mode of difference, regulating roller 6 can cooperate the regulation that carries out the position, the winding wheel 5a that prevents not to twine electrolytic copper foil hinders its conveying.

The wiping mechanism 8 comprises wiping rollers 81, a wiping motor 82, a wiping rotating shaft 83, wiping rollers 84, a wiping guide frame 85, a lower rotating motor 86, a lower rotating roller 87, a lower rotating shaft 88 and a lower rotating block 89, the number of the wiping rollers 81 is three, the wiping rollers 81 are all arranged between the connecting frames 2, the wiping rollers 84 are positioned above the two wiping rollers 81 at the left end, and the wiping rollers 84 are arranged on the middle part of the wiping rotating shaft 83;

the rear end of the wiping rotating shaft 83 is mounted on the connecting frame 2 at the rear end of the bottom plate 1 through a bearing, the front end of the wiping rotating shaft 83 penetrates through the connecting frame 2 at the front end of the bottom plate 1, the front end of the wiping rotating shaft 83 is connected with the output shaft of the wiping motor 82 through a coupling, and the wiping motor 82 is mounted on the connecting frame 2 at the front end of the bottom plate 1 through a motor sleeve;

a wiping guide 85 is provided on the right side of the wiping roller 84, the front and rear ends of the wiping guide 85 respectively penetrate the link 2 and are connected to the link 2, a lower rotary roller 87 is provided below the two wiping rollers 81 on the right end, the lower rotary roller 87 is mounted on the middle portion of a lower rotary shaft 88, and the rear end of the lower rotary shaft 88 is mounted on the link 2 provided at the rear end of the base plate 1 through a bearing;

the front end of the lower rotating shaft 88 passes through the connecting frame 2 at the front end of the bottom plate 1, the front end of the lower rotating shaft 88 is connected with the output shaft of the lower rotating motor 86 through a coupling, the lower rotating motor 86 is installed on the connecting frame 2 at the front end of the bottom plate 1 through a motor sleeve, the lower rotating block 89 is located at the lower end of the lower rotating roller 87, and the lower rotating block 89 is installed between the connecting frames 2. in particular, in operation, the wiping mechanism 8 can wipe the washed electrolytic copper foil so as to increase the drying effect and speed of the electrolytic copper foil, when the electrolytic copper foil is conveyed from the adjusting roller 6 to the right, the wiping roller 81 can guide, and the upper side and the lower side of the electrolytic copper foil can be wiped respectively through the wiping roller 84 and the lower rotating.

The wiping roller 81 in the middle of the connecting frame 2 is higher than the two wiping rollers 81 at the outer ends, and the position of the wiping roller 81 in the middle is higher, so that the electrolytic copper foil can be in a state of being lifted when the electrolytic copper foil performs the wiping action of the upper side surface, so that the wiping effect of the electrolytic copper foil is increased, and the electrolytic copper foil is in a state of being lowered when the electrolytic copper foil performs the wiping action of the lower side surface.

The leading-in roller 4, the adjusting roller 6 and the two wiping rollers 81 positioned at the outer end of the connecting frame 2 are all positioned at the same height, and the arrangement can increase the stability of the electrolytic copper foil transmission.

Flexible sponge sleeve pads are arranged on the outer side surfaces of the wiping roller 84 and the lower rotating roller 87; the lower rotating block 89 is of an arc-shaped structure, arc chamfers are arranged at the left end and the right end of the lower rotating block 89, water leakage holes are uniformly formed in the lower rotating block 89, the water absorption effect of the sponge sleeve gasket of the wiping roller 84 and the lower rotating roller 87 can be increased, when the lower rotating roller 87 rotates to wipe and contacts with the lower end of the lower rotating block 89, the lower rotating block 89 can extrude and contract the sponge sleeve gasket arranged on the lower rotating roller 87, and therefore water in the sponge sleeve gasket on the lower rotating roller 87 can flow out through the water leakage holes formed in the lower rotating block 89, and the wiping effect of the electrolytic copper foil wiping device on the electrolytic copper foil is improved.

Wiping guide 85 be the frame type structure, the left end of wiping guide 85 is provided with the drainage plate 851 of outer end tilt up, the right-hand member top of wiping guide 85 is connected with the stripper plate 852 of arc structure, and stripper plate 852 is located the top of wiping guide 85, stripper plate 852's upper and lower extreme both are provided with the baffle 853 that leans out, when wiping cylinder 84 carries out the rotatory wiping action, the right-hand member of the sponge sleeve pad in wiping cylinder 84 outside can contact earlier than stripper plate 852, the baffle 853 of stripper plate 852 upper end can lead the sponge sleeve pad in wiping cylinder 84 outside, make the sponge sleeve pad in wiping cylinder 84 outside extrude by stripper plate 852, extruded moisture can flow to wiping guide 85 in along the baffle 853 of stripper plate 852 lower extreme, drainage plate 851 can prevent extruded moisture from flowing on the electrolytic copper foil again.

The outer end of the drainage plate 851 is of an arc-shaped structure, water guide chutes are symmetrically arranged on the lower side wall of the right end of the wiping guide frame 85 and penetrate through the outer side wall of the wiping guide frame 85, and the water pouring chutes on the wiping guide frame 85 can guide water to the outer end of the wiping guide frame so that the water extruded by the wiping roller 84 can flow into the water storage frame 22.

The middle part of the right end of the connecting frame 2 is provided with an L-shaped plate 21, a water storage frame 22 is placed on the L-shaped plate 21, and the water storage frame 22 can contain water squeezed out of the wiping roller 84 and the lower rotating roller 87.

In operation, when the electrolytic copper foil needs to be washed, the guide roller 4 can convey the electrolytic copper foil after surface treatment to the right inside the cleaning frame 3, the five winding wheels 5a can wind the electrolytic copper foil in different forms so that the electrolytic copper foil is in proper washing time, and the adjusting roller 6 can adjust the position in a matching way, so that the winding wheels 5a which do not wind the electrolytic copper foil can be prevented from obstructing the conveying;

the wiping mechanism 8 can wipe the washed electrolytic copper foil so as to increase the drying effect and speed of the electrolytic copper foil, the wiping motor 82 and the lower rotating motor 86 are controlled to rotate anticlockwise, and the sponge sleeve pads of the wiping roller 84 and the lower rotating roller 87 can increase the water absorption effect; when the lower rotary drum 87 rotates to perform wiping action and is in contact with the lower end of the lower rotary block 89, the lower rotary block 89 can extrude and contract the sponge sleeve gasket arranged on the lower rotary drum 87, so that the moisture of the sponge sleeve gasket on the lower rotary drum 87 can flow out through the water leakage holes arranged on the lower rotary block 89, when the wiping rotary drum 84 performs rotating wiping action, the right end of the sponge sleeve gasket outside the wiping rotary drum 84 can be in contact with the extrusion plate 852 in advance, the guide plate 853 at the upper end of the extrusion plate 852 can guide the sponge sleeve gasket outside the wiping rotary drum 84, the sponge sleeve gasket outside the wiping rotary drum 84 is extruded by the extrusion plate 852, the extruded moisture can flow into the wiping guide frame 85 along the guide plate 853 at the lower end of the extrusion plate 852, the drainage plate 851 can prevent the extruded moisture from flowing onto the electrolytic copper foil again, the water pouring chute on the wiping guide frame 85 can guide the moisture to the outer end, the water storage frame 22 can connect the wiping rotary drum 84 and the, and finally, drying and rolling the electrolytic copper foil.

Example two

As shown in fig. 1, 2, 3 and 5, the difference between the second embodiment and the first embodiment is only that the winding way of the electrolytic copper foil is changed, the length of the electrolytic copper foil in the cleaning frame 3 in the second embodiment is shorter than the length of the electrolytic copper foil in the cleaning frame 3 in the first embodiment, so that the cleaning time of the electrolytic copper foil in the winding way of the second embodiment is shorter than that of the electrolytic copper foil in the winding way of the first embodiment, and the winding speed of the electrolytic copper foil does not need to be changed in the whole process when the surface treatment solution applied to the outer side surface of the electrolytic copper foil is less than that of the surface treatment solution applied to the outer side surface of the electrolytic copper foil in the first embodiment.

EXAMPLE III

As shown in fig. 1, 2, 3 and 6, the difference between the third embodiment and the second embodiment is only that the winding way of the electrolytic copper foil is changed, the length of the electrolytic copper foil in the cleaning frame 3 in the third embodiment is shorter than the length of the electrolytic copper foil in the cleaning frame 3 in the second embodiment, so that the cleaning time of the electrolytic copper foil in the third embodiment is shorter than that of the electrolytic copper foil in the second embodiment, and the third embodiment is suitable for the condition that the surface treatment solution on the outer side surface of the electrolytic copper foil is less than that on the outer side surface of the electrolytic copper foil in the second embodiment, and the winding speed of the electrolytic copper foil does not need to be changed in the whole process.

In conclusion, the cleaning device can adjust the corresponding cleaning time according to the amount of the surface treatment solution on the outer side surface of the electrolytic copper foil without changing the winding speed of the electrolytic copper foil, so that the electrolytic copper foil can be in the proper cleaning time, and the cleaning effect of the electrolytic copper foil is improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a surface treatment device before electrolytic copper foil rolling, includes bottom plate (1), link (2), washs frame (3), leading-in roller (4), winding wheelset (5), adjusting roll (6) and wiping mechanism (8), its characterized in that: the cleaning device is characterized in that a cleaning frame (3) is mounted on the top of the left end of a bottom plate (1), a winding wheel set (5) is mounted on the inner wall of the cleaning frame (3), a connecting frame (2) is arranged on each of the front side and the rear side above the cleaning frame (3), the connecting frame (2) is of a U-shaped structure, the lower end of the connecting frame (2) is mounted on the top of the outer end of the bottom plate (1), a guide-in roller (4) and an adjusting roller (6) are respectively located at the left end and the right end above the cleaning frame (3), the guide-in roller (4) and the adjusting roller (6) are both mounted between the connecting frames (2), a wiping mechanism (8) is located on the right side of the adjusting roller (6), and the wiping mechanism (8) is mounted between; wherein:

the winding wheel set (5) comprises five winding wheels (5a), the winding wheels (5a) are all arranged between the inner walls of the cleaning frame (3), and the connecting lines between the axes of the five winding wheels (5a) form an M shape;

the wiping mechanism (8) comprises wiping rollers (81), a wiping motor (82), a wiping rotating shaft (83), wiping rollers (84), wiping guide frames (85), a lower rotating motor (86), a lower rotating drum (87), a lower rotating shaft (88) and a lower rotating block (89), the number of the wiping rollers (81) is three, the wiping rollers (81) are all arranged between the connecting frames (2), the wiping rollers (84) are positioned above the two wiping rollers (81) at the left end, and the wiping rollers (84) are arranged in the middle of the wiping rotating shaft (83);

the rear end of the wiping rotating shaft (83) is mounted on the connecting frame (2) located at the rear end of the base plate (1) through a bearing, the front end of the wiping rotating shaft (83) penetrates through the connecting frame (2) located at the front end of the base plate (1), the front end of the wiping rotating shaft (83) is connected with an output shaft of a wiping motor (82) through a coupling, and the wiping motor (82) is mounted on the connecting frame (2) located at the front end of the base plate (1) through a motor sleeve;

-a wiping guide (85) is located on the right side of the wiping roller (84), the front and rear ends of the wiping guide (85) respectively penetrate through the connecting frame (2) and are connected with the connecting frame (2), the lower rotating roller (87) is located below the two wiping rollers (81) at the right end, the lower rotating roller (87) is installed on the middle part of the lower rotating shaft (88), and the rear end of the lower rotating shaft (88) is installed on the connecting frame (2) located at the rear end of the bottom plate (1) through a bearing;

-the front end of the lower rotating shaft (88) penetrates through the connecting frame (2) arranged at the front end of the bottom plate (1), the front end of the lower rotating shaft (88) is connected with the output shaft of the lower rotating motor (86) through a coupler, the lower rotating motor (86) is arranged on the connecting frame (2) arranged at the front end of the bottom plate (1) through a motor sleeve, the lower rotating block (89) is arranged at the lower end of the lower rotating drum (87), and the lower rotating block (89) is arranged between the connecting frames (2).

2. The surface treatment device before the winding of the electrolytic copper foil according to claim 1, characterized in that: evenly be provided with the multiunit round hole on the middle part of link (2), both ends all are provided with regulating plate (61) around regulating roller (6), both ends all are provided with a round hole about regulating plate (61), and the interval between every group round hole on the interval of the round hole on regulating plate (61) and link (2) equals, bolt (62) have all been alternate in every round hole on regulating plate (61), bolt (62) pass through the nut behind the round hole on link (2) and lock.

3. The surface treatment device before the winding of the electrolytic copper foil according to claim 1, characterized in that: the wiping roller (81) positioned in the middle of the connecting frame (2) is higher than the two wiping rollers (81) at the outer ends.

4. The surface treatment device before the winding of the electrolytic copper foil according to claim 1, characterized in that: the leading-in roller (4), the adjusting roller (6) and the two wiping rollers (81) positioned at the outer end of the connecting frame (2) are all positioned at the same height.

5. The surface treatment device before the winding of the electrolytic copper foil according to claim 1, characterized in that: flexible sponge sleeve pads are arranged on the outer side surfaces of the wiping roller (84) and the lower rotating roller (87); down briquetting (89) be the arc structure, both ends all are provided with the arc chamfer about down briquetting (89), evenly are provided with the hole that leaks on down briquetting (89).

6. The surface treatment device before the winding of the electrolytic copper foil according to claim 1, characterized in that: clean leading frame (85) be frame type structure, the left end of cleaning leading frame (85) is provided with outer end tilt up's drainage plate (851), the right-hand member top of cleaning leading frame (85) is connected with stripper plate (852) of arc structure, and stripper plate (852) are located the top of cleaning leading frame (85), the upper and lower end both of stripper plate (852) are provided with baffle (853) that lean out.

7. The surface treatment device before the winding of the electrolytic copper foil according to claim 6, characterized in that: the outer end of the drainage plate (851) is of an arc-shaped structure, water guide chutes are symmetrically arranged on the lower side wall of the right end of the wiping guide frame (85), and the water guide chutes penetrate through the outer side wall of the wiping guide frame (85).

8. The surface treatment device before the winding of the electrolytic copper foil according to claim 1, characterized in that: the middle part of the right end of the connecting frame (2) is provided with an L-shaped plate (21), and a water storage frame (22) is placed on the L-shaped plate (21).

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