CN203559135U - Electrolytic manganese conductive device - Google Patents

Abstract

The utility model discloses an electrolytic manganese conductive device. The electrolytic manganese conductive device comprises a polar plate, a conductive rod, a copper bar and a conductive joint, and is characterized in that the conductive joint consists of a conductive sleeve, springs and conductive copper blocks, the conductive sleeve and the conductive copper block are connected through the springs, the polar plate is connected with the conductive sleeve through the conductive rod, and the copper bar and the conductive copper block are connected. Two or more conductive copper blocks are arranged on one side of the conductive sleeve in a toothed manner. Each conductive copper block is connected with four or more springs. The conductive sleeve is made of soft alloy materials. The electrolytic manganese conductive device is simple in structure and convenient to use, the conductive sleeve is made of soft alloy materials, the contact area with the polar plate and the copper bar can be increased under the action of pressure by utilizing the vertical deformation of the springs, so that the contact resistance can be reduced, and the electricity loss in the production process of electrolytic manganese can be decreased.

Description

A kind of electric installation of electrolytic manganese

Technical field

The utility model belongs to electrolytic manganese field, is specifically related to a kind of electric installation of electrolytic manganese.

Background technology

At present, in the production process of electrolytic metal Mn, what generally adopt is that the method that the conducting rod of positive plate and negative plate is hooked respectively to electrolyzer bus copper bar is communicated with two pole plates, there is larger shortcoming in this conduction mode, what be mainly that the conducting rod of cathode-anode plate adopts is directly to ride against on bus bar copper row.The natural rigidity that is copper-copper due to the way of contact of pole plate and copper bar contacts, and in existing manufacturing process, pole plate cannot reach good smooth parallel with the contact surface of copper bar, the real contact area that is pole plate and copper bar is less, cause contact resistance large, power consumption heating is serious, has increased production electric energy loss.

Summary of the invention

The purpose of this utility model: in order to solve in the production of electrolytic manganese, the contact surface contact resistance little and that cause of pole plate and copper bar is large, and the problem that electric energy loss is serious aims to provide a kind of simple in structure, reduce electric energy loss, the electric installation of the electrolytic manganese that pole plate and copper bar contact area are large.

For achieving the above object, the electric installation of the utility model electrolytic manganese, comprise pole plate, conducting rod, copper bar and conductive contact, it is characterized in that: described conductive contact comprises conducting sleeve, spring and conduction copper billet, described conducting sleeve is connected with conduction copper billet by spring, described pole plate is connected with conductive contact by conducting rod, and described copper bar is connected with the contact of conduction copper billet.

Described conduction copper billet is arranged on a side of conducting sleeve, and quantity is two or more, is flute profile and arranges.

The number of springs that described each conduction copper billet connects is four or more.

The material of described conducting sleeve is soft alloy material.

Substantive distinguishing features of the present utility model and progress are:

The electric installation of the utility model electrolytic manganese, simple in structure, easy to use, conducting sleeve adopts soft alloy material, and the distortion up and down that utilizes spring, so that the contact area of increase under pressure and pole plate and copper bar, thereby reduce contact resistance, reduce the electric energy loss in electrolytic manganese production process.

Accompanying drawing explanation

Fig. 1 is the electric installation structural front view of the utility model electrolytic manganese.

Fig. 2 is the side-view of electric installation shown in Fig. 1.

Component serial number and title in figure:

Pole plate 1, conducting rod 2, conducting sleeve 3, spring 4, conduction copper billet 5, copper bar 6.

Embodiment

The electric installation of the utility model electrolytic manganese is described below in conjunction with accompanying drawing.

The electric installation of the utility model electrolytic manganese, pole plate 1 is connected with conducting sleeve 3 by conducting rod 2, and copper bar 6 is connected with 5 contacts of conduction copper billet, and conduction copper billet 5 is arranged on a side of conducting sleeve 3, and conduction copper billet 5 is connected with conducting sleeve 3 by spring 4.

The quantity of conduction copper billet 5 is two or more, is flute profile and arranges.

Spring 4 quantity that each conduction copper billet 5 connects are four or more.

The material of conducting sleeve 3 is soft alloy material.

The principle of work of the electric installation of the utility model electrolytic manganese:

The electric installation of the utility model electrolytic manganese, in use, pole plate 1 is connected with conducting rod 2, and conducting rod 2 is placed in conducting sleeve 3.Conducting sleeve 3 is used soft materials to be made, and in the course of the work, because the bottom of conducting rod under pressure-acting 2 and the internal surface of conducting sleeve 3 fit tightly, has effectively increased contact area.

Conduction copper billet 5 is connected with copper bar 6 contacts, and electric installation is holddown spring 4 under pressure, and the copper billet 5 that makes to conduct electricity fits tightly with copper bar 6, and enlarge active surface, reduces contact resistance.

In traditional electrolytic manganese production, directly conducting rod 2 is connected with pole plate 1, conducting rod 2 rides against on copper bar 6, contact resistance is now 0.5 Europe, use after electric installation of the present utility model, contact resistance is reduced to 0.008 Europe, reduces contact resistance minimizing electric energy loss effect remarkable.

Claims (4)

1. the electric installation of an electrolytic manganese, comprise pole plate (1), conducting rod (2), copper bar (6) and conductive contact, it is characterized in that: described conductive contact comprises conducting sleeve (3), spring (4) and conduction copper billet (5), described conducting sleeve (3) is connected with conduction copper billet (5) by spring (4), described pole plate (1) is connected with conducting sleeve (3) by conducting rod (2), and described copper bar (6) is connected with conduction copper billet (5) contact.

2. the electric installation of electrolytic manganese according to claim 1, is characterized in that: described conduction copper billet (5) is arranged on a side of conducting sleeve (3), and quantity is two or more, is flute profile and arranges.

3. the electric installation of electrolytic manganese according to claim 1, is characterized in that: spring (4) quantity that described each conduction copper billet (5) connects is four or more.

4. the electric installation of electrolytic manganese according to claim 1, is characterized in that: the material of described conducting sleeve (3) is soft alloy material.

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