RU2245943C2 - Apparatus for determining distance between base of self-fired anode of aluminum cell with upper current supply and lower cut of current supply pin and method for using such apparatus - Google Patents

Abstract

FIELD: non-ferrous metallurgy, possibly determination of parameters of self-fired anode of aluminum cell with upper current supply.

SUBSTANCE: apparatus for measuring distance from base of self-fired anode of aluminum cell with upper current supply until upper part of anode casing includes Г-shaped lower elbow. Apparatus also includes vertical bar that may be secured to said lower elbow, spring-loaded measuring rod mounted with possibility of fixation in upper part of said bar; and level gage for controlling vertical position of bar. Г-shaped lower elbow is removable one and it is mounted on bar by means of locking member. Method of determining distance comprises steps of measuring distance from upper part of anode casing until upper cut of steel portion of current supply clamp and distance from anode base until upper part of anode casing. Distance from anode base until upper part of anode casing is measured directly with use of apparatus of invention; target distance is calculated with use of given formula.

EFFECT: enhanced accuracy of measurements.

3 cl, 2 dwg

Description

The proposal relates to non-ferrous metallurgy and can be used to determine the parameters of the self-burning anode of an aluminum electrolyzer with a top current lead (VT).

The distance from the bottom of the anode to the lower cut of the current-carrying pin in electrolytic cells with VT and self-firing anode is an important parameter for maintaining stable anode technology and electrolysis in general. The overestimation or understatement of this distance leads to negative consequences (pitch proteins, cracking in the body of the anode, increased heat generation and electrical resistance, etc.), therefore, its accurate measurement is a very urgent task. At present, in most aluminum plants equipped with BT electrolyzers, this distance is determined by an indirect method, which is based on measuring with a special tool the so-called “poker”, the distance from the bottom of the anode to the lower edge of the gas collection bell. Then, by calculation, using the knowledge of the geometric dimensions of the anode casing, the gas collector and the current-carrying pin, the minimum distance from the pin to the bottom of the anode is determined.

The prototype is a device for determining the distance from the end of the pin to the bottom of the anode (Kadrichev V.P., Mintsis M.Ya. Measurement and optimization of parameters of aluminum electrolyzers. - Chelyabinsk, Metal, 1995, pp. 36-43).

To determine the distance from the pin to the bottom of the anode L _min , a “poker” is introduced under the anode and the distance m is measured (“poker” is the bottom of the bell) and the part f of the pin protruding above the anode casing, standing on the lower horizon. The values c and f — the height of the poker knee and the height of the anode casing with the bell — are known structural dimensions. The length of the pin h _w is a variable, because during operation, the lower part of the pin is oxidized and the pin is shortened. Therefore, in each case, the pins are periodically calibrated, and they are selected of the same length. The minimum distance L _{min is} calculated by the formula:

Lmin = c + m + f + th _w

The disadvantage of the known method and tool adopted for the prototype is the complexity of the operations performed during the measurement, and a large error in determining the desired distance, for example, the location of the lower edge of the gas collector, from which the reference is made, relative to the anode casing for several months of operation may change by 30- 50 mm, respectively, the error of determining the minimum distance from the sole of the anode to the lower cut of the current-supply pin will increase by the same amount.

The objective of this proposal is to reduce labor costs during measurements.

The technical result of the proposed device is to increase the accuracy of measurements.

The technical result is achieved by the fact that the device for determining the distance from the sole of the self-burning anode of the aluminum electrolytic cell BT to the lower cut of the baked current-supply pin, including measuring the distance from the upper part of the anode casing to the upper cut of the steel part of the current-supply pin, make a direct measurement of the distance from the base of the anode to the upper part the anode casing and then the distance from the sole of the anode to the lower cut of the current-carrying pin is determined by the formula:

Lmin = A + B-C

where Lmin is the distance from the bottom of the anode to the lower cut of the baked current-carrying pin;

A is the distance from the sole of the anode to the upper part of the anode casing;

B is the distance from the upper part of the anode casing to the upper cut of the steel part of the current-supply pin;

C is the length of the steel part of the lead pin.

The technical result is achieved by the fact that in the device for measuring the distance from the sole of the self-burning anode of the aluminum electrolyzer to the upper part of the anode casing, including the L-shaped lower knee, it is made in the form of a vertical rod with a spring-loaded measuring rod installed in the upper part with the possibility of its fixation relative to rod, and the rod itself is equipped with a level gauge that allows you to track the verticality of its installation, in addition, provides for a removable L-shaped lower knee, fixed on and the bar using the latch.

Common features of this proposal and the prototype are the following features: the presence of an L-shaped lower knee.

The difference is that the device is made in the form of a vertical hollow rod with a spring-loaded measuring rod installed in the upper part with the possibility of fixing it relative to the rod, and the rod itself is equipped with a level gauge that allows you to track the verticality of its installation, and the L-shaped lower knee is removable, fixed on the rod with a clamp, the difference is also that with the help of the device a direct measurement of the distance from the sole of the self-burning anode to the upper part of the anode is carried out ozhuha and produce the required distance of the above formula.

Given the above, it can be concluded that this proposal meets the condition of patentability “novelty”.

To compare the proposals with other well-known solutions, a search was carried out in patent and scientific and technical literature. No solutions similar to the proposed were found, which allows us to conclude that this proposal meets the condition of patentability “inventive step”.

The proposal is illustrated in FIGS. 1 and 2, where FIG. 1 shows a general view of an aluminum electrolyzer and a device 1 for measuring the distance from the sole 2 of the self-burning anode of an aluminum electrolytic cell BT to the upper part of the anode casing (anode pad 3) with baked current-carrying pins 4, in FIG. . 2 shows a general view of the device 1. It consists of a hollow rod 5, on which a level gauge 6, an L-shaped lower elbow 7, a measuring rod 8 is mounted. The elbow 7 is fixed in the rod 5 with a latch 9 and can be replaced with a new one as it wears out . The measuring rod 8 can reciprocate in the rod 5 and can be fixed in any of the intermediate positions using the upper latch 10. In the highest position, the rod 8 is moved using the spring 11. The rod 8 has a scale with divisions, which allows you to count measured distance.

Before performing the measurement (the diagram is shown in figure 1), the rod 8 is recessed into the tool body and fixed in this position. Then, the lower knee tool is installed on the anode sole and the rod 5 is brought into a vertical position along the level gauge 6, after which the upper latch 10 is released and the measuring rod 8 under the action of the spring 11 abuts against the platform of the anode 3, which is the upper part of the anode casing. The scale determines the distance from the sole of the anode to the upper part of the casing (size A in figure 1). Then measured the distance from the upper part of the anode casing to the upper cut of the steel part of the pin 4 (size B in figure 1). Considering that the length of the steel part of pin 4 (size C) is known, the minimum distance from the lower cut of the baked current-carrying pin 4 to the bottom of the anode 2 is determined by the formula Lmin = A + B-C.

The proposed device and method of its use were pilot-tested and showed higher measurement accuracy compared to the known prototype, which affects the maintenance of stable anode technology and electrolysis in general.

Claims (3)

1. A device for measuring the distance from the sole of the self-burning anode of an aluminum electrolyzer with an upper current supply to the upper part of the anode casing, containing a L-shaped lower knee, characterized in that it is provided with a vertical rod made with the possibility of attaching to the L-shaped lower knee, spring-loaded measuring a rod mounted with the possibility of fixation in the upper part of the rod, and a level gauge to track the vertical installation of the rod. 2. The device according to claim 1, characterized in that the L-shaped lower knee is removable and secured to the rod using a latch. 3. A method for determining the distance from the sole of the self-burning anode of an aluminum electrolyzer with an upper current lead to the lower cut of the lead pin, comprising measuring the distance from the upper part of the anode jacket to the upper edge of the steel portion of the lead and the distance from the bottom of the anode to the upper part of the anode jacket, characterized in that conduct a direct measurement of the distance from the sole of the anode to the upper part of the anode casing by the device according to claim 1 and calculate the desired distance by the formula L _min = A + BC, where L _min is the distance from the bottom of the anode to the lower cut of the current-carrying pin, A is the distance from the sole of the anode to the upper part of the anode casing, B is the distance from the upper part of the anode casing to the upper cut of the steel part of the current-supply pin, C is the length of the steel part of the lead pin.

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