Electrolyte delivery device for aluminum foil formation processing

By designing an electrolyte delivery device with stirring hooks and stirring rods during the aluminum foil formation process, the problem of slow solute dissolution in the storage tank was solved, achieving uniformity and purity of the electrolyte and improving processing efficiency.

CN224337759UActive Publication Date: 2026-06-09XINJIANG FENGCHUAN ELECTRONIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINJIANG FENGCHUAN ELECTRONIC TECH CO LTD
Filing Date
2025-07-21
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing liquid storage tank lacks a stirring structure, resulting in slow solute dissolution and uneven electrolyte composition, which affects the quality of aluminum foil formation processing.

Method used

An electrolyte delivery device including a stirring hook and a stirring rod was designed. Stirring is achieved through gear transmission. Combined with a filter plate and a purification mechanism, the uniformity and purity of the electrolyte are ensured.

Benefits of technology

It achieves uniform fusion and rapid mixing of electrolyte, improves electrolyte purity, shortens mixing time, and extends the service life of filter plates.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses an electrolyte conveying device for aluminum foil formation processing, applied in the field of aluminum foil technology. It includes a base plate, a storage tank bolted to the top left side of the base plate, a filling pipe fixedly connected to the surface of the storage tank, a toothed disc welded to the top inside the storage tank, a connecting plate bolted to the top of the storage tank, a motor bolted to the bottom of the horizontal surface of the connecting plate, a first gear fixedly connected to the output end of the motor, a second gear meshing with the teeth of the toothed disc and the first gear, a stirring hook bolted to the bottom of the first gear, a stirring rod bolted to the bottom of the second gear, and an electrolysis tank bolted to the top right side of the base plate. This utility model, by setting the stirring hook and stirring rod, facilitates the stirring of the electrolyte in the storage tank, ensuring uniform fusion of the solute and electrolyte, resulting in a uniform electrolyte composition and saving time in mixing the solute and electrolyte.
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Description

Technical Field

[0001] This utility model belongs to the field of aluminum foil technology, and specifically relates to an electrolyte conveying device for aluminum foil formation processing. Background Technology

[0002] Due to its excellent properties, aluminum foil is widely used in food, beverages, cigarettes, pharmaceuticals, photographic plates, and household daily necessities, typically as packaging material; electrolytic capacitor material; insulation material for buildings, vehicles, ships, and houses; and can also be used as decorative gold and silver threads, wallpaper, and decorative trademarks for various stationery printed materials and light industrial products. The production and processing of aluminum foil requires multiple steps. To ensure the quality of aluminum foil production, electrolyte needs to be transported from the storage tank to the electrolysis tank to replenish the aluminum foil during the production process.

[0003] A certain amount of solute, such as boric acid or phosphoric acid, needs to be added to the electrolyte. Existing storage tanks often do not have a stirring structure. If there is no stirring, the solute needs to dissolve slowly through molecular diffusion, which takes a long time and may also lead to excessively high local concentrations, resulting in uneven electrolyte composition, which is not conducive to the subsequent formation of the electrolyte and aluminum foil in the electrolyte tank. Utility Model Content

[0004] The purpose of this utility model is to provide an electrolyte conveying device for aluminum foil formation processing. Its advantages are that it can facilitate the stirring of electrolyte in the storage tank and filter and remove impurities when the electrolyte is conveyed to the electrolyte tank.

[0005] The above-mentioned technical objective of this utility model is achieved through the following technical solution: an electrolyte conveying device for aluminum foil formation processing, comprising a base plate, a storage tank bolted to the left side of the top of the base plate, a filling pipe fixedly connected to the surface of the storage tank, a toothed disc welded to the top of the storage tank, a connecting plate bolted to the top of the storage tank, a motor bolted to the bottom of the horizontal surface of the connecting plate, a first gear fixedly connected to the output end of the motor, a second gear meshing with the teeth of the toothed disc and the teeth of the first gear, a stirring hook bolted to the bottom of the first gear, a stirring rod bolted to the bottom of the second gear, and the stirring rod slidably connected to the groove of the toothed disc, an electrolysis chamber bolted to the right side of the top of the base plate, a conveying assembly provided between the storage tank and the electrolysis chamber, and a purification mechanism provided inside the electrolysis chamber.

[0006] The above technical solution facilitates the stirring of the electrolyte in the storage tank, ensuring uniform mixing of the solute and electrolyte, resulting in a homogeneous electrolyte composition and saving time in mixing the solute and electrolyte.

[0007] The present invention is further configured such that the conveying assembly includes a first connecting pipe, one end of the first connecting pipe is fixedly connected to the interior of the liquid storage tank, the other end of the first connecting pipe is fixedly connected to a water pump, the other end of the water pump is fixedly connected to a second connecting pipe, and the second connecting pipe extends through the interior of the electrolysis tank.

[0008] By adopting the above technical solution, by setting up a first connecting pipe, a water pump and a second connecting pipe, it is possible to easily transport the electrolyte from the storage tank to the electrolysis tank, which facilitates subsequent operations.

[0009] The present invention is further configured such that the impurity removal mechanism includes rectangular grooves, which are symmetrically opened on both sides of the electrolysis chamber. Vertical rods are bolted to the bottom of both rectangular grooves, and fixed blocks are slidably connected to the surface of each vertical rod. A filter plate is bolted to the opposite side of the two fixed blocks.

[0010] The above technical solution, by setting up a rectangular trough, vertical rod, fixing block and filter plate, can filter and remove impurities from the electrolyte entering the electrolysis chamber, so that the electrolyte used for aluminum foil formation processing is pure. The filter plate is set as a detachable structure, which facilitates cleaning of the filter plate and increases the service life of the filter plate.

[0011] The present invention is further configured such that a protective box is bolted to the bottom of the horizontal surface of the connecting plate, and the surface of the motor is bolted to the inside of the protective box.

[0012] The above technical solution is adopted: by setting up a protective box, the motor can be protected and damage to the motor can be avoided during use. The surface of the protective box is provided with heat dissipation holes, and the protective box can also be set as a metal mesh frame structure.

[0013] The present invention is further configured such that a cap is threadedly connected to the surface of the injection tube, and a handle is bolted to the front side of the cap.

[0014] The above technical solution allows for easy sealing and opening of the injection pipe outlet by setting a cap and a handle, facilitating injection and preventing the external environment from affecting the electrolyte in the storage tank.

[0015] The present invention is further provided that a sealing ring is adhered to the left side of the electrolysis chamber at the penetration point of the second connecting pipe.

[0016] The above technical solution involves setting a sealing ring to seal the location where the second connecting pipe penetrates the electrolysis chamber, thus preventing the external environment from adversely affecting the chemical formation process inside the electrolysis chamber.

[0017] The present invention is further provided that handles are bolted to both the front and rear sides of the filter plate.

[0018] The above technical solution allows for easy removal and placement of the filter plate by providing a handle.

[0019] The present invention is further configured such that a cover plate is hinged to the top of the electrolysis chamber, and a handle is bolted to the top of the cover plate.

[0020] The above technical solution allows for easy sealing of the electrolysis chamber by setting up a cover and handle, ensuring that the chemical formation process is not affected by the external environment, while also preventing the removal and placement of filter plates from being affected.

[0021] In summary, this utility model has the following beneficial effects:

[0022] 1. This utility model, by setting a stirring hook and a stirring rod, facilitates the stirring of the electrolyte in the storage tank, so that the solute and electrolyte are evenly mixed, resulting in a uniform electrolyte composition. This achieves the effect of saving the mixing time of the solute and electrolyte, and solves the problem that if the solute does not stir, it needs to dissolve slowly through molecular diffusion, which takes a long time and may also lead to excessively high local concentrations, resulting in an uneven electrolyte composition.

[0023] 2. This utility model, by setting up a purification mechanism, can filter and remove impurities from the electrolyte entering the electrolysis chamber, ensuring that the electrolyte used for aluminum foil formation processing is pure. The filter plate is designed as a detachable structure, which facilitates cleaning of the filter plate, increases the service life of the filter plate, and achieves the effect of facilitating subsequent processing of the electrolyte. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0025] Figure 2 This is a partial structural cross-sectional view of the present invention;

[0026] Figure 3 This is a schematic diagram of the structure of the toothed disc of this utility model;

[0027] Figure 4 This is a partial top view of the structure of this utility model.

[0028] Reference numerals: 1. Base plate; 2. Storage tank; 3. Injection pipe; 4. Gear disc; 5. Connecting plate; 6. Motor; 7. First gear; 8. Second gear; 9. Stirring hook; 10. Stirring rod; 11. Electrolysis chamber; 12. Conveying assembly; 1201. First connecting pipe; 1202. Water pump; 1203. Second connecting pipe; 13. Impurity removal mechanism; 1301. Rectangular trough; 1302. Vertical rod; 1303. Fixing block; 1304. Filter plate; 14. Protective box; 15. Screw cap; 16. Screw handle; 17. Grip; 18. Cover plate; 19. Handle. Detailed Implementation

[0029] The present invention will be further described in detail below with reference to the accompanying drawings.

[0030] Example 1:

[0031] refer to Figure 1 , Figure 2 and Figure 3 An electrolyte conveying device for aluminum foil forming processing includes a base plate 1. A storage tank 2 is bolted to the top left side of the base plate 1. A filling pipe 3 is fixedly connected to the surface of the storage tank 2. A toothed disc 4 is welded to the top inside the storage tank 2. A connecting plate 5 is bolted to the top of the storage tank 2. A motor 6 is bolted to the bottom of the horizontal surface of the connecting plate 5. A first gear 7 is fixedly connected to the output end of the motor 6. The teeth of the toothed disc 4 and the teeth of the first gear 7 mesh together with a second gear 8. A stirring hook 9 is bolted to the bottom of the first gear 7. A stirring rod 10 is bolted to the bottom of the second gear 8, and the stirring rod 10 is slidably connected to the groove of the toothed disc 4. An electrolysis tank 11 is bolted to the top right side of the base plate 1. A conveying component 12 is provided between the storage tank 2 and the electrolysis tank 11 to facilitate stirring of the electrolyte in the storage tank 2, so that the solute and electrolyte are uniformly fused, resulting in a uniform electrolyte composition and saving the time of mixing the solute and electrolyte.

[0032] refer to Figure 1 The conveying assembly 12 includes a first connecting pipe 1201. One end of the first connecting pipe 1201 is fixedly connected to the interior of the liquid storage tank 2, and the other end of the first connecting pipe 1201 is fixedly connected to a water pump 1202. The other end of the water pump 1202 is fixedly connected to a second connecting pipe 1203. The second connecting pipe 1203 extends into the interior of the electrolysis tank 11. By setting the first connecting pipe 1201, the water pump 1202, and the second connecting pipe 1203, it is convenient to convey the electrolyte from the liquid storage tank 2 to the electrolysis tank 11, which facilitates subsequent operations.

[0033] refer to Figure 1 A protective box 14 is bolted to the bottom of the horizontal side of the connecting plate 5. The surface of the motor 6 is bolted to the inside of the protective box 14. By setting the protective box 14, the motor 6 can be protected and prevented from being damaged during use. The protective box 14 has heat dissipation holes on its surface. The protective box 14 can also be set as a metal mesh frame structure.

[0034] refer to Figure 1 The surface of the injection pipe 3 is threaded with a cap 15, and a handle 16 is bolted to the front side of the cap 15. By setting the cap 15 and the handle 16, it is easy to seal and open the outlet of the injection pipe 3, which facilitates injection and also avoids the external environment from affecting the electrolyte in the storage tank 2.

[0035] refer to Figure 1A sealing ring is attached to the left side of the electrolysis chamber 11 at the penetration point of the second connecting pipe 1203. By setting the sealing ring, the position where the second connecting pipe 1203 penetrates the electrolysis chamber 11 can be sealed, so as to avoid the adverse effects of the external environment on the formation process inside the electrolysis chamber 11.

[0036] Brief description of the usage process: Start the motor 6, the motor 6 drives the first gear 7 to rotate. With the cooperation of the gear plate 4, the first gear 7 drives the second gear 8 to rotate around the vertical central axis of the first gear 7. The rotation of the first gear 7 causes the stirring hook 9 to rotate, and the rotation of the second gear 8 causes the stirring rod 10 to rotate.

[0037] Example 2:

[0038] refer to Figure 4 An electrolyte conveying device for aluminum foil forming processing is provided. The electrolysis chamber 11 is equipped with a purification mechanism 13, which can filter and remove impurities from the electrolyte entering the electrolysis chamber 11, so that the electrolyte used for aluminum foil forming processing is pure.

[0039] refer to Figure 4 The impurity removal mechanism 13 includes rectangular grooves 1301, which are symmetrically arranged on both sides of the electrolysis chamber 11. Vertical rods 1302 are bolted to the bottom of each of the two rectangular grooves 1301. Fixing blocks 1303 are slidably connected to the surface of each vertical rod 1302. A filter plate 1304 is bolted to the opposite side of each of the two fixing blocks 1303. By setting up the rectangular grooves 1301, vertical rods 1302, fixing blocks 1303 and filter plates 1304, the electrolyte entering the electrolysis chamber 11 can be filtered and impurities removed, so that the electrolyte used for aluminum foil formation processing is pure. The filter plate 1304 is designed to be detachable, which facilitates cleaning of the filter plate 1304 and increases the service life of the filter plate 1304.

[0040] refer to Figure 4 The filter plate 1304 is bolted with handles 17 on both the front and rear sides. By setting the handles 17, it is easy to take out and put in the filter plate 1304.

[0041] refer to Figure 1 The top of the electrolysis chamber 11 is hinged with a cover plate 18, and a handle 19 is bolted to the top of the cover plate 18. By setting the cover plate 18 and the handle 19, the electrolysis chamber 11 can be easily sealed, so that the chemical formation process is not affected by the external environment, and at the same time, the removal and placement of the filter plate 1304 are not affected.

[0042] Brief description of the usage process: Start the water pump 1202, and transport the electrolyte in the storage tank 2 to the electrolysis tank 11 through the first connecting pipe 1201 and the second connecting pipe 1203. The electrolyte will pass through the filter plate 1304, and the filter plate 1304 will filter the impurities in the electrolyte onto the filter plate 1304. The electrolyte after impurity removal enters the bottom of the electrolysis tank 11 through the filter plate 1304.

[0043] It should be noted that parts have a lifespan and can be replaced during regular maintenance when they no longer meet performance requirements. Deterioration in performance due to prolonged use of parts is not a design defect of this application.

[0044] This specific embodiment is merely an explanation of the present utility model and is not intended to limit the present utility model. After reading this specification, those skilled in the art can make modifications to this embodiment without contributing any inventive step, but as long as they are within the scope of the claims of the present utility model, they are protected by patent law.

Claims

1. An electrolyte conveying device for aluminum foil forming processing, comprising a base plate (1), characterized in that: A liquid storage tank (2) is bolted to the left side of the top of the base plate (1). A filling pipe (3) is fixedly connected to the surface of the liquid storage tank (2). A gear plate (4) is welded to the top inside the liquid storage tank (2). A connecting plate (5) is bolted to the top of the liquid storage tank (2). A motor (6) is bolted to the bottom of the horizontal surface of the connecting plate (5). A first gear (7) is fixedly connected to the output end of the motor (6). The teeth of the gear plate (4) and the teeth of the first gear (7) are... The first gear (7) is meshed with a second gear (8), and a stirring hook (9) is bolted to the bottom of the first gear (7). A stirring rod (10) is bolted to the bottom of the second gear (8), and the stirring rod (10) is slidably connected to the groove of the gear plate (4). An electrolysis chamber (11) is bolted to the right side of the top of the base plate (1). A conveying assembly (12) is provided between the liquid storage chamber (2) and the electrolysis chamber (11). A purification mechanism (13) is provided inside the electrolysis chamber (11).

2. The electrolyte conveying device for aluminum foil formation processing according to claim 1, characterized in that: The conveying assembly (12) includes a first connecting pipe (1201), one end of which is fixedly connected to the interior of the liquid storage tank (2), and the other end of which is fixedly connected to a water pump (1202). The other end of the water pump (1202) is fixedly connected to a second connecting pipe (1203), which extends into the interior of the electrolysis tank (11).

3. The electrolyte conveying device for aluminum foil formation processing according to claim 1, characterized in that: The impurity removal mechanism (13) includes rectangular grooves (1301), which are symmetrically opened on both sides of the electrolysis chamber (11). Vertical rods (1302) are bolted to the bottom of both rectangular grooves (1301), and fixed blocks (1303) are slidably connected to the surface of each vertical rod (1302). A filter plate (1304) is bolted to the opposite side of the two fixed blocks (1303).

4. The electrolyte conveying device for aluminum foil formation processing according to claim 1, characterized in that: A protective box (14) is bolted to the bottom of the horizontal side of the connecting plate (5), and the surface of the motor (6) is bolted to the inside of the protective box (14).

5. The electrolyte conveying device for aluminum foil formation processing according to claim 1, characterized in that: The surface of the injection tube (3) is threaded with a cap (15), and a handle (16) is bolted to the front side of the cap (15).

6. The electrolyte conveying device for aluminum foil formation processing according to claim 2, characterized in that: A sealing ring is attached to the left side of the electrolysis chamber (11) at the penetration point of the second connecting pipe (1203).

7. The electrolyte conveying device for aluminum foil formation processing according to claim 3, characterized in that: The filter plate (1304) is fitted with handles (17) on both the front and rear sides.

8. The electrolyte conveying device for aluminum foil formation processing according to claim 1, characterized in that: The top of the electrolysis chamber (11) is hinged to a cover plate (18), and a handle (19) is bolted to the top of the cover plate (18).