CN210826393U - Novel integral electrolysis negative plate - Google Patents

Abstract

The utility model discloses a novel integral electrolytic cathode plate, which comprises a conductive cross beam and a plate electrode, wherein three sections of welding plates are arranged at one end of the plate electrode, which is connected with the conductive cross beam, and are bent alternately to lead the plate electrode to be Y-shaped and cover and clamp the conductive cross beam, each welding plate is attached to the contact surface of the conductive cross beam, and each welding plate is welded with the edge of the contact surface of the conductive cross beam; the electrolytic cathode plate adopting the structure has the advantages that the three sections of welding plates are arranged on the cathode plate and are bent alternately, so that the cathode plate clamps the conductive cross beam in a Y shape, the contact area of the cathode plate and the conductive cross beam is increased, and finally, the contact part of the welding electrode plate and the conductive cross beam is fixed, so that the conductive performance is improved, the processing is convenient, and the structure is simple; and because the electrode plate is coated and welded on the conductive cross beam to form an integral structure, the rigidity strength of the electrolytic cathode plate is increased, the processing cost of the electrolytic cathode plate can be reduced, and the electrolytic cathode plate is more suitable for complex use environments such as electrolytic copper and the like.

Description

Novel integral electrolysis negative plate

Technical Field

The utility model relates to an electrolytic cathode plate.

Background

The electrolytic cathode plate is generally used for electrolytic copper and other metal electrolysis, such as electrolytic nickel, electrolytic cobalt and the like, and comprises a conductive cross beam and an electrode plate, wherein the electrode plate is arranged in an electrolytic cell, and the conductive cross beam supplies current to the electrode plate and realizes suspension. The existing conductive beam generally adopts a composite structure of stainless steel-clad copper or titanium-clad copper, so that the conductivity can be improved, and the corrosion resistance is realized. Adopt like patent 201020644908.3 structure when traditional plate electrode is connected with electrically conductive crossbeam, with the welding of electrode plate edge on electrically conductive crossbeam, this kind of structure area of contact is little, resistance increase, electric conductive property is relatively poor, the fracture appears easily in the splice, life shortens.

SUMMERY OF THE UTILITY MODEL

In order to solve the deficiencies in the prior art, the utility model provides an electrolysis negative plate with simple structure, good contact and good conductive performance, which adopts the technical proposal that:

the utility model provides a novel integral electrolysis negative plate, includes electrically conductive crossbeam and plate electrode plate and electrically conductive crossbeam be connected one end and be equipped with three-section welded plate, three-section welded plate buckle in turn and make and be the Y type on the plate electrode with electrically conductive crossbeam cladding centre gripping, each welded plate and electrically conductive crossbeam contact surface laminating, each welded plate and electrically conductive crossbeam contact surface edge welding.

Further, the electrode plate electrolysis part is aligned with the center of the conductive beam.

The electrolytic cathode plate adopting the structure has the advantages that the three sections of welding plates are arranged on the cathode plate and are bent alternately, so that the cathode plate clamps the conductive cross beam in a Y shape, the contact area of the cathode plate and the conductive cross beam is increased, and finally, the contact part of the welding electrode plate and the conductive cross beam is fixed, so that the conductive performance is improved, the processing is convenient, and the structure is simple; and because the electrode plate is coated and welded on the conductive cross beam to form an integral structure, the rigidity strength of the electrolytic cathode plate is increased, the processing cost of the electrolytic cathode plate can be reduced, and the electrolytic cathode plate is more suitable for complex use environments such as electrolytic copper and the like.

Drawings

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

FIG. 2 is an exploded view of the structure of the present invention;

fig. 3 is a side view of the structure of the present invention.

Detailed Description

The electrolytic cathode plate shown in fig. 1 and 2 comprises a conductive beam 1 and an electrode plate 2, wherein three welding plates 2-1 are arranged on the electrode plate 2, the three welding plates 2-1 can be formed by cutting one end of the electrode plate 2, then the three welding plates 2-1 are alternately bent (the bending direction of the middle welding plate is opposite to that of the two welding plates), and the electrode plate 2 is formed into a Y shape shown in fig. 3 when viewed from one side, so that the three welding plates 2-1 can wrap and clamp the conductive beam 1, the contact surfaces of the three welding plates 2-1 and the conductive beam 1 are kept to be attached, and the contact parts of the three welding plates 2-1 and the conductive beam 1 are welded and fixed, and the contact surface area of the electrode plate 2 and the conductive beam 1 is increased by the structure, and the conductivity is improved. In order to further increase the conductivity, the conductive beam 1 and the electrode plate 2 are coated and welded to form an integral structure, so that the overall rigidity and strength of the electrolytic cathode plate are increased. This electrically conductive crossbeam 1 can adopt stainless steel to wrap the copper or the compound structure of titanium copper-clad, has both improved the conducting capacity and has anticorrosive function, adopts electrode plate 2 cladding welding on electrically conductive crossbeam 1, and the structural style of this kind of cladding formula can make stainless steel copper-clad's stainless steel layer or titanium layer be less than or equal to 1mm, has consequently reduced its processing cost. In order to balance the electrolytic cathode plate, the electrolytic part of the electrode plate 2 is aligned with the center of the conductive beam 1, so that the center of gravity of the electrode plate 2 can be kept at the center position after being installed on the conductive beam 1, and short circuit between the electrode plates caused by inclination in suspension is avoided.

Claims (2)

1. The utility model provides a novel integral electrolysis negative plate, includes electrically conductive crossbeam (1) and electrode board (2), its characterized in that: the connecting end of the electrode plate (2) and the conductive beam (1) is provided with three welding plates (2-1), the three welding plates (2-1) are bent alternately to enable the electrode plate (2) to be Y-shaped to wrap and clamp the conductive beam (1), the contact surfaces of the welding plates (2-1) and the conductive beam (1) are attached, and the edges of the contact surfaces of the welding plates (2-1) and the conductive beam (1) are welded.

2. A novel integral electrolytic cathode plate as claimed in claim 1, wherein: the electrolytic part of the electrode plate (2) is aligned with the center of the conductive beam (1).

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