CN212741559U - Filterable bubble anode tank guide plate and crude foil machine - Google Patents

Abstract

The utility model discloses a but filter bubble anode tank guide plate and crude foil machine installs in anode tank inlet, and is located the titanium roller below, and it includes that the cross-section is rectangular link and cross-section for curved water conservancy diversion end, the link sets up in water conservancy diversion end below, the cross-section is curved water conservancy diversion end downwarping. The abrasion damage of the titanium roller caused by the direct impact of the electrolyte on the titanium roller for a long time at a high speed is prevented. Through setting up the guide hole can impact a large amount of bulky bubbles that produce that the local electrolysis liquid phase impact leads to in the sputtering and carry out the filtration bubble defoaming behind the titanium roller to electrolyte, avoid bulky bubble to influence the production quality of copper foil, the water conservancy diversion end cooperation guide hole can filter the debris or the impurity of accidentally sneaking into in the electrolyte, prevents that it from getting into anode tank and titanium roller contact and causing its damage.

Description

Filterable bubble anode tank guide plate and crude foil machine

Technical Field

The utility model discloses be applied to crude foil machine technology, specifically be a filterable bubble anode trough guide plate and crude foil machine.

Background

At present, copper foil is an indispensable important basic material in the electronic industry, and particularly, as the new energy industry is further upgraded, the 6 μm or less electrolytic copper foil has wider market prospect, and the quality requirement on the 6 μm or less electrolytic copper foil is higher and higher. Adopt the mode of pouring into the positive pole groove with electrolyte to carry out the technology of electrolytic manufacturing in the manufacturing process, current operation mode does, directly rush into the positive pole inslot through the positive pole groove inlet with electrolyte, has following technical problem:

1. the electrolyte directly impacts the titanium roller for a long time to cause abrasion damage of the titanium roller, and the electrolyte flows unevenly in the process, so that copper ions in a local area are unevenly distributed, and a scorching phenomenon is generated to influence the production quality of the copper foil.

2. The electrolyte directly impacts the titanium roller and then is sputtered, so that local electrolyte impact generates a large amount of bubbles with larger volume, and the production quality of the copper foil is seriously affected.

3. When the used electrolyte is mixed with impurities or impurities accidentally, the electrolyte directly flows into the anode tank to contact with the titanium roller, so that the production quality of the copper foil in the whole batch is influenced, and even the titanium roller is damaged.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the prior art is not enough, a filterable bubble anode tank guide plate and crude foil machine are provided.

For solving the technical problem, the utility model discloses a can strain bubble anode tank guide plate installs in the anode tank inlet, and is located the titanium roller below, and it includes that the cross-section is rectangular link and cross-section for curved water conservancy diversion end, the link sets up in water conservancy diversion end below, the cross-section is curved water conservancy diversion end downwarping.

As a possible implementation mode, furthermore, three rows of guide holes are symmetrically formed on two sides of the flow guide end with the arc-shaped cross section, and the diameter of each guide hole is 2-6 mm.

As a possible implementation manner, furthermore, the side walls of the two sides of the liquid inlet of the anode tank are symmetrically and uniformly provided with a plurality of groups of shunting guide plates at intervals, and the two side surfaces of the connecting end are welded and fixed with the shunting guide plates.

As a possible implementation manner, further, the connecting end and the flow guiding end are of an integrated structure.

As a possible implementation mode, further, the length of each of the connecting end and the flow guide end is equal to that of the titanium roller, and the length of each of the connecting end and the flow guide end is 0.8-1.2 m.

The crude foil machine comprises the anode tank flow guide plate capable of filtering bubbles.

The utility model adopts the above technical scheme, following beneficial effect has:

the utility model discloses install in the positive pole groove inlet, the electrolyte of dashing into the positive pole groove is shunted, prevents that the long-term high-speed direct impact titanium roller of electrolyte from leading to the wearing and tearing of titanium roller to damage. The connecting end is arranged to enable the connecting end to be welded on the shunt guide plate to complete fixed installation, and the current guide end is arranged to enable the current guide end to shunt the electrolyte to two sides so that the electrolyte flows into the anode tank through the guide hole, so that the flow direction of the electrolyte is enhanced, and the phenomenon that the copper ions in a local area are unevenly distributed to cause scorching to affect the production quality of the copper foil due to uneven flow is avoided; meanwhile, the guide hole can filter and defoam a large amount of large-volume bubbles generated by local electrolyte impact due to sputtering after the electrolyte impacts the titanium roller, the influence of the large-volume bubbles on the production quality of the copper foil is avoided, and the guide end is matched with the guide hole to filter impurities or impurities accidentally mixed in the electrolyte, so that the impurities or the impurities are prevented from entering the anode tank and being in contact with the titanium roller to cause damage.

Drawings

The present invention will be described in further detail with reference to the following drawings and embodiments:

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

FIG. 2 is a side view of the structure of the present invention;

FIG. 3 is a schematic perspective view of the present invention;

FIG. 4 is a schematic view of the connection position of the connection end and the diversion guide plate of the present invention;

fig. 5 is a top view of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention will be combined to clearly and completely describe the technical solutions of the embodiments of the present invention.

As shown in fig. 1-5, the utility model provides a can strain bubble anode tank guide plate installs in 1 inlet of anode tank, and is located 2 below titanium rollers, and it includes that the cross-section is rectangular link 3 and cross-section and is curved water conservancy diversion end 4, link 3 sets up in water conservancy diversion end 4 below, the cross-section is curved water conservancy diversion end 4 downwarping. Three rows of guide holes 401 are symmetrically arranged on two sides of the guide end 4 with the arc-shaped section, and the diameter of each guide hole 401 is 2-6 mm. Even interval of 1 inlet both sides lateral wall symmetry of anode tank is provided with multiunit reposition of redundant personnel deflector 101, 3 both sides faces of link and reposition of redundant personnel deflector 101 welded fastening, and preferred, during fixed mounting water conservancy diversion end 4, can be with its both ends and 1 inlet top opening both sides butt in anode tank for electrolyte can pass through the sieve of guide hole 401 and strain reentrant anode tank, prevents that the unexpected debris or the impurity of sneaking into in the electrolyte from directly flowing into anode tank 1 and titanium roller 2 contact, influences whole batch copper foil production quality, damages titanium roller 2 even.

As a possible embodiment, further, the connecting end 3 and the flow guiding end 4 are of an integrated structure.

As a possible implementation manner, further, the length of each of the connecting end 3 and the flow guide end 4 is equal to that of the titanium roller 2, and the length of each of the connecting end 3 and the flow guide end 4 is 0.8-1.2 m.

The crude foil machine comprises the anode tank flow guide plate capable of filtering bubbles.

When electrolyte is input into the anode slot 1, the electrolyte is poured into the liquid inlet of the anode slot 1 from bottom to top, the poured electrolyte is shunted by the connecting end 3 and the flow guide end 4, and the electrolyte enters the anode slot 1 along the guide hole 401 starting from the surface of the flow guide end 4, so that the problems that in the traditional process, the electrolyte directly impacts a titanium roller, so that the copper ions in a local area are not uniformly distributed, and the scorching phenomenon is generated to influence the production quality of a copper foil are solved. The problem that the production quality of the copper foil is seriously influenced due to the fact that a large number of bubbles are generated by local electrolyte phase impact caused by sputtering of the titanium roller impacted by the electrolyte at a high speed is solved. Meanwhile, through the screening and filtering of the guide hole 401, large-volume bubbles in the electrolyte can be eliminated or filtered into small-volume bubbles, the problem that the large-volume bubbles have a large negative effect on the production of the copper foil is solved, meanwhile, impurities or impurities in the electrolyte can be blocked outside the flow guide end 4, and the situation that the impurities or the impurities enter the anode slot 1 or contact with the titanium roller 2 to affect the production quality of the copper foil in the whole batch and even damage the titanium roller 2 is avoided.

The above embodiments are the embodiments of the present invention, and for those skilled in the art, according to the teaching of the present invention, the equivalent changes, modifications, replacements and variations made by the claims of the present invention should all belong to the scope of the present invention without departing from the principle and spirit of the present invention.

Claims (6)

1. The utility model provides a can strain bubble anode tank guide plate, installs in anode tank inlet, and is located titanium roller below, its characterized in that: the connecting end is arranged below the flow guide end, and the flow guide end with the arc-shaped cross section is bent downwards.

2. The anode cell baffle of claim 1, wherein: three rows of guide holes are symmetrically formed in two sides of the flow guide end with the arc-shaped cross section, and the diameter of each guide hole is 2-6 mm.

3. The anode cell baffle of claim 1, wherein: the anode tank liquid inlet both sides lateral wall symmetry even interval is provided with multiunit reposition of redundant personnel deflector, link both sides face and reposition of redundant personnel deflector welded fastening.

4. The anode cell baffle of claim 1, wherein: the connecting end and the flow guide end are of an integrated structure.

5. The anode cell baffle of claim 1, wherein: the length of the connecting end and the length of the flow guide end are equal to the length of the titanium roller, and the length of the connecting end and the length of the flow guide end are 0.8-1.2 m.

6. A green foil machine characterized by: comprising the anode cell baffle of any of claims 1-5.

Images