CN218756101U - Horizontal membrane material electroplating device - Google Patents

Abstract

The utility model discloses a horizontal film material electroplating device, which comprises a middle electroplating bath, wherein the front end and the rear end of the middle electroplating bath are respectively provided with a water-blocking roller wheel which is symmetrical up and down and is used for horizontally conveying a film product; the device also comprises conductive cathode rollers which are arranged in pairs up and down and are parallel to the water blocking roller wheel, and a clamping space between the conductive cathode rollers is horizontal to that of the water blocking roller wheel; conductive anodes positioned at the upper side and the lower side of the film product are horizontally arranged in the middle electroplating bath; the electroplating solution inlet pipe is used for supplying solution to the middle electroplating bath, and the liquid level of the electroplating bath in the middle electroplating bath is over the conductive anode positioned on the upper side of the film product. The utility model adopts a horizontal continuous electroplating mode, greatly reduces the possibility of wrinkling of the film product and reduces the rejection rate of the product; because the product is immersed in the liquid medicine in the whole electroplating process, the electroplating condition is very stable, and the plating layer is uniform under the conditions of uniform electric field and flow field.

Description

Horizontal membrane material electroplating device

Technical Field

The utility model belongs to the technical field of automation equipment technique and specifically relates to new energy battery production facility technical field, in particular to horizontal membrane material electroplating device.

Background

Along with the progress of science and technology, except that the copper foil that novel compound film based on lithium cell is in order to replace traditional lithium electricity is as the mass flow body to present new energy automobile industry development, it compares traditional copper foil structure can effectively promote the security of lithium cell, possesses long service life, the metal quantity is few, light in weight, advantage with low costs.

The basic structure of the composite membrane is a sandwich-structured composite current collector of a metal conducting layer, a polymer supporting layer and a metal conducting layer, a vertical clamping electroplating mode is generally used in the industry at present, a conductive cathode is generally in direct contact with a product, when the product passes through an electroplating area, the product can be directly immersed in electroplating liquid, the conductive cathode is communicated with a conductive anode in an electroplating tank, and an electroplating membrane is slowly formed on the surface of the product. However, the above prior art has the following disadvantages:

(1) the vertical film plating mode of the prior industry has complex groove body structure and high manufacturing cost;

(2) the film is easy to wrinkle in the actual operation process by the vertical film coating mode, the thickness of the electroplated layer is uneven, the yield of products is low, and the maintenance is extremely inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the technical scheme of the utility model as follows:

a horizontal film material electroplating device comprises a middle electroplating bath, wherein paired water blocking rollers are arranged at the front end and the rear end of the middle electroplating bath and used for horizontally clamping and conveying film products, and the horizontal film material electroplating device also comprises conductive cathode rollers which are arranged in pairs and are parallel to the water blocking rollers, wherein the clamping space of the conductive cathode rollers is horizontal to the clamping space of the water blocking rollers;

conductive anodes positioned at the upper side and the lower side of the film product are horizontally arranged in the middle electroplating bath;

the electroplating solution inlet pipe is used for supplying solution to the middle electroplating tank, and the liquid level of the electroplating tank in the middle electroplating tank is not higher than the conductive anode positioned on the upper side of the film product.

Based on the technical scheme, the utility model discloses a horizontal centre gripping of film product is carried in order to ensure with the centre gripping space level of the running roller that blocks water to the centre gripping space between the paired electrically conductive cathode roller, when the film product passes through the middle part plating bath according to the traffic direction in succession, because the upper and lower surface of film product all contacts with electrically conductive cathode roller (the film product surface has conductivity through the preliminary treatment before electroplating), film product direct submergence in the middle part plating bath and with electrically conductive positive pole switch-on, metal ion is just reduced to film product upper and lower surface gradually in the plating bath, consequently, the utility model discloses a horizontal continuous electroplating mode, very big reduction the film product possibility of fold appears, reduce the disability rate of product; because the product is immersed in the liquid medicine in the whole electroplating process, the electroplating condition is very stable, and the plating layer is uniform under the conditions of uniform electric field and flow field.

The electroplating solution liquid inlet pipe comprises an electroplating solution upper spray pipe positioned above the conductive anode on the upper side so as to realize the replenishment of the electroplating solution from the upper side; or the electroplating solution liquid inlet pipe comprises an electroplating solution lower spray pipe positioned below the conductive anode at the lower side so as to realize the replenishment of the electroplating solution from the lower side; or, the plating solution liquid inlet pipe comprises a plating solution upper spray pipe positioned above the upper side of the conductive anode and a plating solution lower spray pipe positioned below the lower side of the conductive anode, so that plating solution is supplemented from the upper side and the lower side simultaneously, and the upper side and the lower side of the film product can be more uniformly plated.

Based on the technical scheme, the device further comprises a rear end cleaning tank positioned at the rear end of the middle electroplating tank, the conductive cathode rollers are rear end conductive cathode rollers which are arranged in pairs in the rear end cleaning tank, and paired water blocking rollers are arranged on the front side and the rear side of the rear end cleaning tank;

the rear end cleaning tank is provided with a rear end liquid inlet pipe for supplying liquid to the rear end cleaning tank, and the liquid level two of the cleaning tank in the rear end cleaning tank is not higher than the upper surface of the film product conveyed horizontally, so that the surface of the electroplated film product is cleaned to prevent the carried electroplating liquid from being crystallized to damage the surface of the film product.

The film conveying device comprises a tank body, wherein the tank body is divided into a middle tank area and a rear end tank area which are sequentially communicated through a rear end partition plate, a middle electroplating tank and a rear end cleaning tank are respectively arranged in the middle tank area and the rear end tank area, and through grooves corresponding to horizontally conveyed film products are formed in a front side plate and a rear side plate of the tank body and in the rear end partition plate. By adopting the design of an integrated and separated closed groove area, the pollution of harmful gas is prevented, and the internal gas channeling is prevented.

The rear end partition board comprises a rear end upper partition board and a rear end lower partition board which are arranged in a vertically corresponding mode, and a rear end through groove corresponding to the film product is reserved between the rear end upper partition board and the rear end lower partition board.

Or, based on the above technical scheme, the electroplating device further comprises a front end cleaning tank positioned at the front end of the middle electroplating tank, wherein the conductive cathode rollers are front end conductive cathode rollers arranged in pairs in the front end cleaning tank, and paired water blocking rollers are arranged on the front side and the rear side of the front end cleaning tank;

the front end cleaning tank is provided with a front end liquid inlet pipe for liquid supply, and the liquid level of the cleaning tank in the front end cleaning tank is lower than the upper surface of the film product conveyed horizontally, so that the surface of the film product subjected to the previous electroplating process is cleaned to prevent the surface of the film product from being damaged by carried electroplating liquid crystals.

The film conveying device is characterized by further comprising a tank body, wherein the tank body is divided into a front end tank area and a middle tank area which are sequentially communicated through a front end partition plate, the front end cleaning tank and the middle electroplating tank are respectively arranged in the front end tank area and the middle tank area, and through grooves corresponding to horizontally conveyed film products are formed in a front side plate and a rear side plate of the tank body and the front end partition plate. By adopting the design of an integrated and separated closed groove area, the pollution of harmful gas is prevented, and the internal gas channeling is prevented.

The front end partition plate comprises a front end upper partition plate and a front end lower partition plate which are arranged vertically and correspondingly, and a front end through groove corresponding to the thin film product is reserved between the front end upper partition plate and the front end lower partition plate.

Or, based on the above technical scheme, the device further comprises a front end cleaning tank located at the front end of the middle electroplating bath and a rear end cleaning tank located at the rear end of the middle electroplating bath, wherein the conductive cathode rollers comprise front end conductive cathode rollers arranged in pairs in the front end cleaning tank and rear end conductive cathode rollers arranged in pairs in the rear end cleaning tank, and paired water-blocking rollers are arranged on the front and rear sides of the front end cleaning tank and the rear end cleaning tank;

the front-end cleaning tank is used for supplying liquid to the front-end cleaning tank, and the liquid level of the cleaning tank in the front-end cleaning tank is not horizontally conveyed to the upper surface of the film product, so that the surface of the film product subjected to the previous electroplating process is cleaned to prevent the carried electroplating liquid from crystallizing and damaging the surface of the film product;

the rear end cleaning tank is provided with a rear end liquid inlet pipe for supplying liquid to the rear end cleaning tank, and the liquid level two of the cleaning tank in the rear end cleaning tank is not higher than the upper surface of the film product conveyed horizontally, so that the surface of the electroplated film product is cleaned to prevent the carried electroplating liquid from being crystallized to damage the surface of the film product.

The film conveying device comprises a tank body, a front end tank area, a middle tank area and a rear end tank area, wherein the tank body is divided into the front end tank area, the middle tank area and the rear end tank area which are sequentially communicated through a front end partition plate and a rear end partition plate, the front end cleaning tank, the middle electroplating tank and the rear end cleaning tank are respectively arranged in the front end tank area, the middle tank area and the rear end tank area, and through grooves corresponding to horizontally conveyed film products are formed in the front side plate and the rear side plate of the tank body and in the front end partition plate and the rear end partition plate. By adopting the design of an integrated and separated closed groove area, the pollution of harmful gas is prevented, and the internal gas channeling is prevented.

The front end partition plate comprises a front end upper partition plate and a front end lower partition plate which are arranged in an up-and-down corresponding mode, and a front end through groove corresponding to the film product is reserved between the front end upper partition plate and the front end lower partition plate.

The rear end partition plate comprises a rear end upper partition plate and a rear end lower partition plate which are arranged up and down correspondingly, and a rear end through groove corresponding to the thin film product is reserved between the rear end upper partition plate and the rear end lower partition plate.

Transition rollers which are symmetrical up and down are also arranged between the front-end cleaning tank and the middle electroplating tank in pairs.

Wherein, still include the transition running roller that sets up in pairs and be used for assisting the horizontal centre gripping of film product to carry to guarantee the levelness of film product 60 in transportation process and influence the product quality in order to prevent that bad such as fold from appearing.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

FIG. 1 is a schematic view of an electroplating apparatus according to an embodiment of the present invention.

In the figure: 10. a trough body; 111. the front end is provided with a clapboard; 112. a front end lower baffle; 121. a clapboard is arranged at the rear end; a rear end lower baffle plate; 20. a front end trough region; 21. a front-end cleaning tank; 22. a front end liquid inlet pipe; 23. a front end conductive cathode roll; 24. a first cleaning tank is filled with liquid; 30. a rear end trough region; 31. a rear-end cleaning tank; 32. a rear end liquid inlet pipe; 33. a rear end conductive cathode roll; 34. a second liquid level of the cleaning tank; 40. a middle trough region; 41. a middle electroplating bath; 42. an electroplating solution upper spray pipe; 43. an electroplating solution lower spray pipe; 44. the liquid level of the plating bath; 45. a conductive anode; a transfer roller; 60. and (3) film products.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Example 1:

referring to fig. 1, the horizontal film electroplating apparatus provided in this embodiment 1 includes a middle electroplating tank 41, wherein pairs of water-blocking rollers 51 are disposed at front and rear ends of the middle electroplating tank 41 for horizontally clamping and conveying a film product 60 and preventing the electroplating solution in the middle electroplating tank 41 from rapidly running off; the device also comprises conductive cathode rollers which are arranged in pairs and are parallel to the water blocking roller wheels 51, and a clamping space between the conductive cathode rollers in pairs is horizontal to a clamping space between the water blocking roller wheels 51 in pairs; conductive anodes 45 positioned at the upper and lower sides of the film product 60 are horizontally arranged in the middle electroplating tank 41; and a plating solution inlet pipe for supplying a plating solution to the middle plating tank 41, wherein the plating tank liquid level 44 in the middle plating tank 41 is not higher than the conductive anode 45 positioned on the upper side of the film product 60.

The electroplating solution inlet pipe comprises an electroplating solution upper spray pipe 42 positioned above the upper conductive anode 45 so as to realize the replenishment of the electroplating solution from the upper part; alternatively, the plating solution inlet pipe comprises a plating solution lower nozzle 43 positioned below the lower conductive anode 45 to realize the replenishment of the plating solution from below; or, the plating solution inlet pipe comprises a plating solution upper nozzle 42 positioned above the upper conductive anode 45 and a plating solution lower nozzle 43 positioned below the lower conductive anode 45, so as to realize the simultaneous replenishment of the plating solution from above and below, thereby avoiding the uneven plating on the upper and lower sides of the film product 60 caused by the concentration of metal ions in the plating solution above the film product 60 being lower than that of the metal ions below, and thus ensuring the more even plating on the upper and lower sides of the film product 60; other liquid feeding methods may also be adopted, which is not particularly limited.

In this embodiment 1, the horizontal clamping and conveying of the film product are ensured by the horizontal clamping space between the paired conductive cathode rollers and the horizontal clamping space of the water blocking roller, and when the film product continuously passes through the middle electroplating bath in the running direction, since the upper and lower surfaces of the film product are both in contact with the conductive cathode rollers (the surface of the film product is already pretreated before electroplating and has conductivity), the film product is directly immersed in the electroplating solution in the middle electroplating bath and is communicated with the conductive anode, and metal ions in the electroplating solution are gradually reduced to the upper and lower surfaces of the film product.

Example 2:

based on embodiment 1, embodiment 2 further includes a rear-end cleaning tank 31 located at the rear end of the middle electroplating tank 41, the conductive cathode rollers are rear-end conductive cathode rollers 33 arranged in pairs in the rear-end cleaning tank 31, and pairs of water-blocking rollers 51 are arranged on both the front and rear sides of the rear-end cleaning tank 31 for horizontal conveying of the film product 60 and preventing the cleaning solution in the rear-end cleaning tank 31 from rapidly running off; the device also comprises a rear end liquid inlet pipe 32 for supplying liquid to the rear end cleaning tank 31, and the upper surface of the film product 60 which is horizontally conveyed by the cleaning tank liquid level two 34 in the rear end cleaning tank 31, so as to clean the surface of the electroplated film product 60 and prevent the surface of the film product 60 from being damaged by the crystallization of the carried electroplating liquid.

Example 3:

based on embodiment 2, this embodiment 3 still includes cell body 10 and cuts apart into middle part district 40 and rear end district 30 that communicate in proper order through the rear end baffle, middle part plating bath 41 and rear end washing tank 31 set up respectively inside middle part district 40 and rear end district 30, all be provided with the logical groove that corresponds horizontal transport film product 60 on the preceding curb plate of cell body 10 and the posterior lateral plate and on the rear end baffle to prevent harmful gas escape pollution and prevent the gas blowby each other between middle part district 40 and the rear end district 30 through sealing the cell body design.

Besides forming a through groove on the rear-end partition plate to correspond to the horizontally conveyed film product, the rear-end partition plate can be further arranged to comprise a rear-end upper partition plate 121 and a rear-end lower partition plate 122 which are correspondingly arranged up and down, and a rear-end through groove corresponding to the film product 60 is reserved between the rear-end upper partition plate 121 and the rear-end lower partition plate 122; transition rollers 50 are also provided in pairs between the middle plating tank 41 and the rear-end cleaning tank 31.

Example 4:

based on the embodiment 1, the embodiment 4 further includes a front end cleaning tank 21 located at the front end of the middle electroplating tank 41, the conductive cathode rollers are front end conductive cathode rollers 23 arranged in pairs in the front end cleaning tank 21, and pairs of water blocking rollers 51 are arranged on both the front and rear sides of the front end cleaning tank 21 for horizontal conveying of the film product 60 and preventing rapid loss of the cleaning solution in the front end cleaning tank 21; the device also comprises a front-end liquid inlet pipe 22 for supplying liquid to the front-end cleaning tank 21, and the cleaning tank liquid level I24 in the front-end cleaning tank 21 is not horizontally conveyed to the upper surface of the film product 60, so that the surface of the film product 60 subjected to the previous electroplating process is cleaned to prevent the carried electroplating liquid from crystallizing and damaging the surface of the film product 60.

Example 5:

based on embodiment 4, this embodiment 5 further includes a tank body 10, and the tank body 10 is divided into a front end tank area 20 and a middle tank area 40 which are sequentially communicated through a front end partition plate, the front end cleaning tank 21 and the middle electroplating tank 41 are respectively disposed inside the front end tank area 20 and the middle tank area 40, and through grooves corresponding to the horizontal conveying of the film products 60 are respectively disposed on the front side plate and the rear side plate of the tank body 10 and on the front end partition plate, so as to prevent the harmful gas from escaping and polluting through the closed tank body design and prevent the mutual blow-by between the front end tank area 20 and the middle tank area 40.

Besides forming a through groove on the front end partition plate to correspond to the horizontally conveyed film product, the front end partition plate can be further arranged to comprise a front end upper partition plate 111 and a front end lower partition plate 112 which are correspondingly arranged up and down, and a front end through groove corresponding to the film product 60 is reserved between the front end upper partition plate 111 and the front end lower partition plate 112; transition rollers 50 are also provided in pairs between the front-end cleaning tank 21 and the middle portion cleaning tank 41.

Example 6:

based on embodiment 1, the embodiment 6 further includes a front-end cleaning tank 21 located at the front end of the middle electroplating tank 41 and a rear-end cleaning tank 31 located at the rear end of the middle electroplating tank 41, the conductive cathode rollers include a front-end conductive cathode roller 23 and a rear-end conductive cathode roller 33, which are arranged in pairs in the front-end cleaning tank 21 and the rear-end cleaning tank 31, and the front and rear sides of the front-end cleaning tank 21 and the rear-end cleaning tank 31 are respectively provided with a pair of water-blocking rollers 51 for horizontal clamping and conveying of the film product 60 and preventing the cleaning liquid in the front-end cleaning tank 21 and the rear-end cleaning tank 31 from rapidly losing; the device also comprises a front-end liquid inlet pipe 22 for supplying liquid to the front-end cleaning tank 21, and a cleaning tank liquid level I24 in the front-end cleaning tank 21 is not horizontally conveyed on the upper surface of the film product 60, so that the surface of the film product 60 subjected to the previous electroplating process is cleaned to prevent the carried electroplating liquid from crystallizing and damaging the surface of the film product 60; the device also comprises a rear end liquid inlet pipe 32 for supplying liquid to the rear end cleaning tank 31, and the upper surface of the film product 60 which is horizontally conveyed by the cleaning tank liquid level two 34 in the rear end cleaning tank 31, so as to clean the surface of the electroplated film product 60 and prevent the surface of the film product 60 from being damaged by the crystallization of the carried electroplating liquid.

Example 7:

based on embodiment 6, this embodiment 7 further includes a tank body 10, and the tank body 10 is divided into a front end tank area 20, a middle tank area 40, and a rear end tank area 30 that are sequentially communicated through a front end partition plate and a rear end partition plate, the front end cleaning tank 21, the middle cleaning tank 41, and the rear end cleaning tank 31 are respectively disposed inside the front end tank area 20, the middle tank area 40, and the rear end tank area 30, and through grooves corresponding to the horizontal conveying of the film product 60 are disposed on the front side plate and the rear side plate of the tank body 10, and on the front end partition plate and the rear end partition plate. By adopting the design of an integrated and separated closed groove area, the pollution of harmful gas is prevented, and the internal gas channeling is prevented.

Besides forming a through groove on the front end partition plate to correspond to the horizontally conveyed film product, the front end partition plate can be further arranged to comprise a front end upper partition plate 111 and a front end lower partition plate 112 which are correspondingly arranged up and down, and a front end through groove corresponding to the film product 60 is reserved between the front end upper partition plate 111 and the front end lower partition plate 112; besides forming through slots on the rear-end partition plate to correspond to horizontally conveyed film products, the rear-end partition plate can be further arranged to comprise a rear-end upper partition plate 121 and a rear-end lower partition plate 122 which are correspondingly arranged up and down, and a rear-end through slot corresponding to the film product 60 is reserved between the rear-end upper partition plate 121 and the rear-end lower partition plate 122; transition rollers 50 are provided in pairs between the front-end cleaning tank 21 and the middle cleaning tank 41 and between the middle cleaning tank 41 and the rear-end cleaning tank 31.

Example 8:

based on any of embodiments 1 to 7 and referring to fig. 1, in embodiment 8, a plurality of pairs of conductive anodes 45 disposed side by side along the conveying direction of the film product 60 and located at the upper and lower sides of the film product 60 may be disposed according to the length of the middle electroplating tank 41 along the conveying direction of the film product 60; and the pairs of transition rollers 50 can be respectively arranged between the pairs of conductive anodes 45 according to the requirements, so as to further ensure the levelness of the film product 60 in the conveying process to prevent the occurrence of wrinkles and influence the product quality.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the above-described embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (13)

1. The horizontal film material electroplating equipment is characterized by comprising a middle electroplating bath (41), wherein the front end and the rear end of the middle electroplating bath (41) are respectively provided with a pair of water-blocking rollers (51) for horizontally clamping and conveying a film product (60);

the device also comprises conductive cathode rollers which are arranged in pairs and are parallel to the water blocking roller wheels (51), and the clamping space of the conductive cathode rollers is horizontal to that of the water blocking roller wheels (51);

the middle electroplating bath (41) is internally and horizontally provided with conductive anodes (45) positioned at the upper side and the lower side of the film product (60);

the electroplating device also comprises an electroplating solution inlet pipe for supplying solution to the middle electroplating tank (41), and the electroplating tank liquid level (44) in the middle electroplating tank (41) does not pass through the conductive anode (45) positioned on the upper side of the film product (60).

2. The horizontal membrane plating apparatus as claimed in claim 1, wherein said plating solution inlet pipe comprises a plating solution upper nozzle (42) located above said conductive anode (45) on the upper side; or the electroplating solution liquid inlet pipe comprises an electroplating solution lower spray pipe (43) positioned below the conductive anode (45) at the lower side; or the electroplating solution liquid inlet pipe comprises an electroplating solution upper spray pipe (42) positioned above the conductive anode (45) at the upper side and an electroplating solution lower spray pipe (43) positioned below the conductive anode (45) at the lower side.

3. The horizontal membrane electroplating equipment according to claim 1, further comprising a rear end cleaning tank (31) positioned at the rear end of the middle electroplating tank (41), wherein the conductive cathode rollers are rear end conductive cathode rollers (33) which are arranged in pairs in the rear end cleaning tank (31), and the front side and the rear side of the rear end cleaning tank (31) are provided with paired water blocking rollers (51);

the device also comprises a rear-end liquid inlet pipe (32) for supplying liquid to the rear-end cleaning tank (31), and a cleaning tank liquid level II (34) in the rear-end cleaning tank (31) is not horizontally conveyed to the upper surface of the film product (60).

4. The horizontal membrane material electroplating equipment according to claim 3, further comprising a tank body (10), wherein the tank body (10) is divided into a middle tank area (40) and a rear tank area (30) which are sequentially communicated through a rear end partition plate, the middle electroplating tank (41) and the rear end cleaning tank (31) are respectively arranged inside the middle tank area (40) and the rear tank area (30), and through grooves corresponding to the horizontal conveying of the thin film products (60) are respectively arranged on the front side plate and the rear side plate of the tank body (10) and on the rear end partition plate.

5. The horizontal membrane electroplating device according to claim 4, wherein the rear end partition comprises a rear end upper partition (121) and a rear end lower partition (122) which are correspondingly arranged up and down, and a rear end through groove corresponding to the thin membrane product (60) is reserved between the rear end upper partition (121) and the rear end lower partition (122).

6. The horizontal membrane electroplating device as claimed in claim 1, further comprising a front-end cleaning tank (21) located at the front end of the middle electroplating tank (41), wherein the conductive cathode rollers are front-end conductive cathode rollers (23) which are arranged in pairs in the front-end cleaning tank (21), and pairs of water-blocking rollers (51) are arranged on the front side and the rear side of the front-end cleaning tank (21);

the film cleaning device also comprises a front-end liquid inlet pipe (22) for supplying liquid to the front-end cleaning tank (21), and the first cleaning tank liquid level (24) in the front-end cleaning tank (21) is not horizontally conveyed on the upper surface of the film product (60).

7. The horizontal membrane material electroplating equipment according to claim 6, further comprising a tank body (10), wherein the tank body (10) is divided into a front end tank area (20) and a middle tank area (40) which are sequentially communicated through a front end partition plate, the front end cleaning tank (21) and the middle electroplating tank (41) are respectively arranged inside the front end tank area (20) and the middle tank area (40), and through grooves corresponding to the horizontal conveying of the membrane products (60) are respectively arranged on a front side plate and a rear side plate of the tank body (10) and on the front end partition plate.

8. The horizontal membrane material electroplating device according to claim 7, wherein the front end partition plate comprises a front end upper partition plate (111) and a front end lower partition plate (112) which are correspondingly arranged up and down, and a front end through groove corresponding to the thin membrane product (60) is reserved between the front end upper partition plate (111) and the front end lower partition plate (112).

9. The horizontal membrane electroplating equipment according to claim 1, further comprising a front end cleaning tank (21) positioned at the front end of the middle electroplating tank (41) and a rear end cleaning tank (31) positioned at the rear end of the middle electroplating tank (41), wherein the conductive cathode rollers comprise a front end conductive cathode roller (23) arranged in the front end cleaning tank (21) in pairs and a rear end conductive cathode roller (33) arranged in the rear end cleaning tank (31) in pairs, and the front side and the rear side of the front end cleaning tank (21) and the rear end cleaning tank (31) are respectively provided with a pair of water blocking rollers (51);

the film cleaning device also comprises a front-end liquid inlet pipe (22) for supplying liquid to the front-end cleaning tank (21), and the first cleaning tank liquid level (24) in the front-end cleaning tank (21) is not horizontally conveyed on the upper surface of the film product (60);

the film cleaning device also comprises a rear end liquid inlet pipe (32) for supplying liquid to the rear end cleaning tank (31), and a cleaning tank liquid level II (34) in the rear end cleaning tank (31) is not horizontally conveyed to the upper surface of the film product (60).

10. The horizontal membrane material electroplating equipment according to claim 9, further comprising a tank body (10), wherein the tank body (10) is divided into a front-end tank area (20), a middle-end tank area (40) and a rear-end tank area (30) which are sequentially communicated through a front-end partition plate and a rear-end partition plate, the front-end cleaning tank (21), the middle electroplating tank (41) and the rear-end cleaning tank (31) are respectively arranged inside the front-end tank area (20), the middle-end tank area (40) and the rear-end tank area (30), and through grooves corresponding to the horizontal conveying membrane products (60) are respectively arranged on the front-side plate and the rear-side plate of the tank body (10) and on the front-end partition plate and the rear-end partition plate.

11. The horizontal membrane electroplating device according to claim 10, wherein the front end partition comprises an upper front end partition (111) and a lower front end partition (112) which are vertically arranged, and a front end through groove corresponding to the thin membrane product (60) is reserved between the upper front end partition (111) and the lower front end partition (112).

12. The horizontal membrane electroplating device according to claim 10, wherein the rear end partition comprises a rear end upper partition (121) and a rear end lower partition (122) which are correspondingly arranged up and down, and a rear end through groove corresponding to the thin membrane product (60) is reserved between the rear end upper partition (121) and the rear end lower partition (122).

13. A horizontal film electroplating apparatus according to any one of claims 1 to 12, further comprising transition rollers (50) arranged in pairs for assisting horizontal nip transport of the film product (60).

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