RU2458187C1 - Electrolyser terminal clamp with baked anodes - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: electrolyser terminal clamp with baked anodes attached to anode bar includes heavy-loaded bracket with screw, support bracket, pressure lever with nose, spring-loaded pad. The pad is located between the brackets. There is a projection cut at the end on the pressure lever on the opposite side of nose attachment that serves for lever fixing in open position. Spring-loaded pad is installed on the pressure lever in position, in which the relation of distance from axis to axes of heavy-loaded and pressure brackets amounts 1.405-1.505. There is an isolating support area on spring-loaded pad for contact with anode bar. The area of support area amounts 196-210 cm².

EFFECT: improvement of reliability of anode rod fastening by increasing the force applied to the lever, and increase of reliability of its operation during manufacturing processes.

2 cl, 2 dwg

Description

The invention relates to the field of non-ferrous metallurgy, in particular to the production of aluminum by electrolysis in cryolite-alumina melts, and in particular to the structural elements of electrolytic cells with calcined anodes for producing aluminum.

Electrical contact between the anode rod of the fired anode with the anode busbar is achieved by mechanical pressing of the rod to the busbar using special screw clamps. So, for example, in foreign practice clamps with a vertical arrangement of screws have become widespread. The control of these clamps (opening-closing) is carried out by special manipulator devices provided on a complex crane that provides maintenance of the electrolyzer. A characteristic feature of these clamps is that they are removed and reinstalled in special brackets on the anode busbar together with the anode when it is replaced and are not serviced manually, which is their drawback.

In the domestic aluminum industry, clamps with a horizontal screw arrangement are used, which can be controlled in principle either by a crane manipulator or manually.

A contact clamp is known (USSR Author's Certificate No. 737505, microliter C25C 3/16, 1980) in which, to improve electrical contact between the anode rod and the anode busbar during its hauling, the pressure pad is spring-loaded relative to the lever. Finger holes connecting the block to the lever are oval, and an insulating layer is applied to the surface of the pressure block in contact with the anode rod.

In the known clamp, unlike clamps with one screw support, the screw has two support points in the power bracket, which greatly increased its reliability. But the achieved force of pressing the anode rod to the busbar remains insufficient to ensure reliable electrical contact between the anode busbar and the rod.

The closest in technical essence to the claimed contact clamp is a contact clamp (RF patent No. 2153028, microliter C25C 3/16, 2000). The contact clamp contains a power bracket with a screw, a thrust bracket, a clamping lever with a toe and a spring-loaded block located between the brackets. The block and the clamping lever are made of antimagnetic material, while the block is mounted on the lever in a position in which the ratio of the distance from the axis to the axes of the power and stop brackets is 1.2-1.4, and the ratio of the sum of these distances to the distance from the axis of the block to the axis of the thrust bracket is 2.2-2.4. In addition, the toe of the clamping arm is made elongated, and the magnitude of the elongation from the axis of the thrust arm to the end of the arm is not less than the distance difference between the axis of the pad and the axes of the arms with a ratio of 1.4.

The main drawback of the contact clamp: in modern electrolyzers of high power for currents of more than 300 kA, heavy anode blocks are used, therefore, the force applied to the lever does not provide reliable pressing and holding of the anode block. Another disadvantage is associated with the fact that the prototype design does not allow the lever to be fixed in the open position of the contact clamp, which makes it difficult to carry out technological operations and complicates their process. The above leads to a decrease in the reliability of the contact clamp when the lever with the block are in a vertical (open) position when replacing the anodes. Often there are cases when the lever with the block fall into the closed (horizontal) position, which complicates the work of maintenance personnel due to the need to keep the lever with the block in a vertical position in these areas.

The technical task of the invention is to increase the reliability of fixing the anode rod, by increasing the force applied to the lever, and increasing the reliability of its operation during technological operations.

The problem is achieved in that in the contact terminal of the electrolyzer with calcined anodes mounted on the anode rod containing a power bracket with a screw, a stop bracket, a clamping lever with a toe, on the opposite end of which there is a protrusion for fixing it in the open position, a spring-loaded block located between the brackets, according to the claimed invention, the spring-loaded block is mounted on the clamping lever in a position in which the ratio of the distance from the axis to the axes of the power and thrust bracket It is 1.405-1.505, and on the spring-loaded block there is an insulating support platform for contact with the anode rod, on the protrusion from the end there is a beveled section for fixing the clamping lever in the open position.

The invention clarifies a particular distinguishing feature.

The area of the reference platform is 196-210 cm ² .

The invention is illustrated by drawings, which depict:

figure 1 is a view of the contact clamp on the side of the cell;

figure 2 is a view in plan.

The inventive clip consists of a spring-loaded pad 1 with an insulating support pad 2 mounted on the pressure arm 3 having a protrusion on the tail portion 4. The opposite end of the pressure arm 3 ends with an elongated toe 5. To the left of the spring pad 1 is a power bracket 6 with a screw fixed to it 7 with a thrust ring 8, and on the right - a thrust bracket 9 with a stop 10. Between the brackets 6 and 9 there is an anode rod 11 pressed against the anode busbar 12 using the clamping lever 3 and shoe 1.

The contact clamp works as follows:

When the screw 7 is rotated counterclockwise (manually or by a crane mechanism), the pressure lever 3 together with the spring-loaded block 1 moves along its axis to the stop ring 8 and, wedged on its end surface, rotate together with the screw in a vertical position. The clamping lever 3 with a spring-loaded block 1 is fixed in a vertical position on the body of the power bracket 6 using the protrusion 4, with the open position of the contact clamp. The protrusion 4 for fixing the clamping lever in the open position has a beveled portion at the end, at an angle of at least 5 °.

Replacing the anode with the anode rod 11 is made with the contact clamp open.

When the screw 7 is rotated clockwise, the clamping lever 3 with the spring-loaded block 1 rotates with the screw 7 and moves from a vertical (open) position to a horizontal (closed) position. The pressure lever 3 with its toe 5 falls over the stop 10 of the right support bracket 9, and the spring-loaded block 1 is located opposite the anode rod 11. With a further rotation of the screw 7, the lever 3 moves along the axis of the screw towards the anode busbar 12 until the spring-loaded block 1 comes into contact with the anode rod 11. The clamping lever 3, moving further, compresses the spring in the spring-loaded block 1 and, after contact with it, begins to press the anode rod 11 against the anode busbar 12 together.

When installing and fixing the clamps of the brackets 6 and 9 on the anode bus 12 to the left of the axis of the block 1, the distance "A" is formed to the axis of the power bracket 6, and the distance "B" is formed to the right of the block axis to the axis of the stop bracket 9. The ratio of these distances is 1.405-1.505. This is the main characteristic of the clamp both for strength calculations of its elements, and for determining the torque on the screw.

, то получим передаточное отношение в рычаге для расчета усилия прижатия штанги к ошиновке.If we take the ratio

, then we get the gear ratio in the lever to calculate the force of pressing the rod to the busbar.

The introduction of the ratio i = 1.405-1.505, which is included in the main characteristic of the clamp, makes it possible to increase or decrease the screw tightening torque and increase the reliability of fixing the pressing of the anode rod to the busbar.

The presence of an insulating support platform for contact with the anode rod provides more reliable electrical insulation.

The implementation of the protrusion for fixing the lever in the open position with a beveled end increases the reliability of the contact clamp in the open position when replacing the anodes, because spontaneous fall of the lever with the block to the closed (horizontal) position is prevented. In addition, the work of the maintenance staff is simplified, since there is no need to manually maintain the lever with the block in a vertical position in these areas.

The implementation of the reference platform with an area of 196-210 cm ² contributes to less crushing of the anode rod when pressed.

Claims (2)

1. The contact clamp of the electrolyzer with calcined anodes mounted on the anode rod, comprising a power bracket with a screw, a thrust bracket, a clamping lever with a toe, on the opposite end of which there is a protrusion for fixing it in the open position, a spring-loaded block located between the brackets, characterized in that the spring-loaded block is installed on the clamping lever in a position in which the ratio of the distance from the axis to the axes of the power and stop brackets is 1.405-1.505, and on the spring-loaded block an insulating support platform for contact with the anode rod is laid, while the protrusion for fixing the pressure lever in the open position has a beveled portion at the end. 2. The contact clamp of the electrolyzer according to claim 1, characterized in that the area of the reference area is 196-210 cm ² .

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