CN220812685U - Anode system with high current efficiency - Google Patents

Abstract

The utility model relates to the technical field of electroplating equipment, and discloses an anode system with high current efficiency, which comprises an electroplating liquid tank and three groups of electroplating generating components, wherein a liquid inlet pipe is communicated with the upper side between the electroplating liquid tank and the electroplating generating components and used for introducing electroplating liquid into the electroplating generating components; the electroplating generating assembly comprises an anode liquid tank, wherein the anode liquid tank is arranged at the top end opening, hanging grooves are formed in two sides of the top end opening, an inserting piece assembly is hung at the hanging grooves, a bent liquid outlet pipe is arranged on the inner side of the anode liquid tank, one end of the liquid outlet pipe is communicated with a liquid inlet pipe on the outer side, and a liquid pumping head is arranged on the upper portion of the side face of the anode liquid tank in a communicating mode. The utility model effectively improves the electroplating efficiency and can improve the operation convenience in the actual electroplating process.

Description

Anode system with high current efficiency

Technical Field

The utility model relates to the technical field of electroplating equipment, in particular to an anode system with high current efficiency.

Background

Publication number CN112981511a discloses a high current efficiency anode system comprising an electroplating bath, at least one anode bath, an anode rod and a diaphragm; the anode liquid tank is arranged in the electroplating tank; adjacent anode liquid tanks are communicated through a communicating pipe; a positioning device is arranged between the anode liquid tank and the electroplating tank; the diaphragm is arranged on the side wall of the anode liquid tank; the diaphragm is of a porous structure, so that ion exchange between electroplating solution and anolyte is realized; the positioning device comprises a rod body; the rod body is horizontally arranged; one end of the rod body is detachably arranged on the inner wall of the electroplating bath, and the other end of the rod body is detachably arranged on the outer wall of the anode liquid tank. The anode system with high current efficiency has simple equipment, does not have a complex pipeline system, and avoids the problem of blockage caused by pipelines; compared with the traditional anode system, the diaphragm area of the application is large, the voltage required during electroplating is small, the current efficiency is high, the anolyte does not need to be frozen, the electroplating bath is not easy to deform, and the service life of the electroplating bath is ensured.

However, the anode liquid tanks are required to be arranged in the electroplating tank in series during actual use, and a certain elbow is formed during the actual electroplating use, so that an anode system with high current efficiency is provided.

Disclosure of utility model

The utility model aims to provide an anode system with high current efficiency, which solves the problems in the background technology.

The embodiment of the application provides an anode system with high current efficiency, which comprises an electroplating liquid tank and three groups of electroplating generating components, wherein a liquid inlet pipe is communicated with the upper side between the electroplating liquid tank and the electroplating generating components and used for introducing electroplating liquid into the electroplating generating components;

the electroplating generating assembly comprises an anode liquid tank, wherein the anode liquid tank is arranged at the top end opening, hanging grooves are formed in two sides of the top end opening, an inserting piece assembly is hung at the hanging grooves, a bent liquid outlet pipe is arranged on the inner side of the anode liquid tank, one end of the liquid outlet pipe is communicated with a liquid inlet pipe on the outer side, a liquid pumping head is arranged on the upper side of the side face of the anode liquid tank in a communicating mode, the liquid pumping head is communicated with the liquid pumping pipe, and electroplating liquid is effectively infused upwards from the bottom of the anode liquid tank, so that full contact of an electroplating process is guaranteed.

Optionally, the insert assembly comprises an insert, the front surface of the insert is provided with a plurality of groups of through holes, the through holes are provided with diaphragms for filtering treatment, and the side surface of the insert is inserted with an anode assembly for participating in the electroplating process;

the anode assembly comprises a connecting plate, one side of the connecting plate is connected with a plurality of groups of anode rods inserted into the inner side of the anode liquid groove, so that the purity of the anode rods in the electroplating process is ensured under the action of the diaphragm, and interference is avoided.

Optionally, the equal fixed mounting in both sides upper portion of inserted sheet has the couple of erectting in positive pole cistern side hanging groove department, ensures the stable erection and the convenient change of inserted sheet subassembly.

Optionally, one end of drain pipe is located the below of inserted sheet subassembly to be provided with the play liquid head that is used for the play liquid in upper portion connection, accelerate to derive the efficiency of electroplating solution from positive pole cistern bottom, accelerate the steady going on of electroplating process.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

1. Through the split arrangement of the electroplating generating assembly, the electroplating efficiency is effectively improved, and by means of the arrangement of the liquid outlet pipe in the electroplating generating assembly, the electroplating liquid is infused from bottom to top, the full contact is ensured, and the electroplating efficiency is further improved;

2. Through the arrangement of the diaphragm on the electroplating generating assembly, the contact area of the diaphragm is greatly enlarged, and the electroplating efficiency is effectively improved;

3. through the arrangement of the replaceable insert assembly, the operation convenience in the actual electroplating process is improved;

4. Through the arrangement of the liquid pump and the liquid suction pipe, the circulation of the electroplating liquid is effectively realized, the concentration uniformity of the electroplating liquid inside is ensured, and the electroplating efficiency of the electroplating process is further improved.

In conclusion, the application effectively improves the electroplating efficiency and can improve the operation convenience in the actual electroplating process.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic view of an anode system with high current efficiency according to the present utility model;

FIG. 2 is a schematic cross-sectional view of an electroplating generating assembly of a high current efficiency anode system of the present utility model;

FIG. 3 is a schematic side cross-sectional view of an electroplating generating assembly of a current efficient anode system of the present utility model;

FIG. 4 is a schematic view of an insert assembly of an anode system with high current efficiency according to the present utility model;

Fig. 5 is a schematic structural view of an anode assembly of an anode system with high current efficiency according to the present utility model.

In the figure: 1. an electroplating liquid tank; 2. a liquid pump; 3. an electroplating generating component; 31. an anode liquid tank; 32. an insert assembly; 321. an anode liquid tank; 322. a diaphragm; 323. an anode assembly; 3231. a connecting plate; 3232. an anode rod; 324. a hook; 33. a liquid outlet pipe; 331. a liquid outlet head; 34. a liquid extracting head; 4. a liquid inlet pipe; 5. and a liquid suction tube.

Detailed Description

Referring to fig. 1-5, the present utility model provides a technical solution: the anode system with high current efficiency comprises an electroplating liquid tank 1 and three groups of electroplating generating components 3, wherein a liquid inlet pipe 4 is communicated with the upper side between the electroplating liquid tank 1 and the electroplating generating components 3 and used for introducing electroplating liquid into the electroplating generating components 3, a liquid pumping pipe 5 is connected to the lower side of the side surface of the electroplating generating components 3 and used for leading out internal anode liquid, a liquid pump 2 communicated with the liquid pumping pipe 5 is arranged at the lower side of the side surface of the electroplating liquid tank 1, so that the electroplating liquid is pumped into the electroplating liquid tank 1 better, circulation is realized, the concentration of the electroplating liquid in the electroplating generating components 3 is ensured, and the stable electroplating process is ensured;

the electroplating generating assembly 3 comprises an anode liquid tank 31, wherein the anode liquid tank 31 is arranged at the top end opening, hanging grooves are formed in two sides of the top end opening, an inserting piece assembly 32 is hung at the hanging grooves, a bent liquid outlet pipe 33 is arranged on the inner side of the anode liquid tank 31, one end of the liquid outlet pipe 33 is communicated with a liquid inlet pipe 4 on the outer side, a liquid pumping head 34 is arranged on the upper side of the side surface of the anode liquid tank 31 in a communicating mode, the liquid pumping head 34 is communicated with the liquid pumping pipe 5, and electroplating liquid is effectively infused upwards from the bottom of the anode liquid tank 31, so that full contact of an electroplating process is guaranteed.

Further, the insert piece assembly 32 comprises an insert piece 321, wherein the front surface of the insert piece 321 is provided with a plurality of groups of through holes, a diaphragm 322 for filtering treatment is arranged at the through holes, and an anode assembly 323 for participating in the electroplating process is inserted into the side surface of the insert piece;

The anode assembly 323 comprises a connecting plate 3231, 3131, and a plurality of groups of anode rods 3232 inserted into the anode liquid groove 31 are connected to one side of the connecting plate 3231, so that the purity of the electroplating process of the anode rods 3232 is ensured under the action of the diaphragm 322, and interference is avoided.

Further, hooks 324 erected at the side hanging grooves of the anode liquid tank 31 are fixedly installed at the upper parts of two sides of the inserting piece 321, so that stable erection and convenient replacement of the inserting piece assembly 32 are ensured.

Further, one end of the drain pipe 33 is located below the insert assembly 32, and a drain head 331 for draining is connected to the upper portion, so as to accelerate the efficiency of draining the electroplating solution from the bottom of the anode liquid tank 31, and accelerate the stable electroplating process.

When the electroplating device is used, firstly, the insert piece assembly 32 inserted with the anode assembly 323 is hung on the inner side of the anode liquid groove 31, then, the electroplating liquid in the electroplating liquid groove 1 is pumped into the anode liquid groove 31 from the liquid outlet pipe 33, and is gradually infused upwards from the bottom end in the anode liquid groove 31, and under the action of the diaphragm 322, the electroplating liquid and the original anode liquid in the anode liquid groove 31 are subjected to ion exchange, so that the anode rod 3232 on the anode assembly 323 is ensured to be subjected to effective electroplating treatment, the actual working area is effectively enlarged under the action of the diaphragm 322, the electroplating efficiency is improved, and the electroplating efficiency in the actual electroplating process is further improved through the arrangement of the split electroplating generating assembly 3;

In the electroplating treatment process, through the arrangement of the liquid pump 2, the electroplating liquid generated in the internal electroplating process is effectively circulated, the concentration is ensured, and the actual electroplating effect is improved.

Claims (4)

1. An anode system with high current efficiency, characterized in that: the electroplating device comprises an electroplating liquid tank (1) and three groups of electroplating generating components (3), wherein a liquid inlet pipe (4) is communicated with the upper side between the electroplating liquid tank (1) and the electroplating generating components (3) and used for introducing electroplating liquid into the electroplating generating components (3), liquid suction pipes (5) are connected to the lower parts of the side surfaces of the electroplating generating components (3) and used for guiding out the electroplating liquid inside, and a liquid pump (2) communicated with the liquid suction pipes (5) is arranged at the lower parts of the side surfaces of the electroplating liquid tank (1);

Electroplating generating assembly (3) are including positive pole cistern (31), positive pole cistern (31) are open-top setting to be equipped with at open-top both sides and hang the groove, hang in hanging groove department and be equipped with inserted sheet subassembly (32), and the inboard of positive pole cistern (31) is equipped with curved drain pipe (33), and the one end and the feed liquor pipe (4) in outside of drain pipe (33) communicate, and the side upper portion intercommunication of positive pole cistern (31) is provided with drawing liquid head (34), and drawing liquid head (34) and drawing liquid pipe (5) intercommunication setting.

2. An anode system with high current efficiency according to claim 1, characterized in that the tab assembly (32) comprises a tab (321), the front side of the tab (321) is provided with several groups of through holes, and at the through holes is provided a membrane (322) for filtration treatment, and the side thereof is inserted with an anode assembly (323) for participating in the electroplating process;

The anode assembly (323) comprises a connecting plate (3231) and a plurality of groups of anode rods (3232) inserted into the inner side of the anode liquid groove (31) are connected to one side of the connecting plate (3131).

3. The anode system with high current efficiency according to claim 2, wherein hooks (324) erected at the side hanging grooves of the anode liquid groove (31) are fixedly installed at the upper parts of two sides of the inserting piece (321).

4. Anode system with high current efficiency according to claim 1, characterized in that one end of the outlet pipe (33) is located below the plug-in assembly (32) and is provided with an outlet head (331) for the outlet at the upper connection.