NO347282B1 - Device for on-line measurement of the distribution of the anode current of an aluminum electrolysis cell - Google Patents

Description

Technical field

The present invention relates to a current measuring device, and in particular a device for on-line measurement of anode current distribution to an aluminum electrolysis cell.

Background for the origin

In recent years, parameter on-line monitoring of the process of modern large-size aluminum electrolysis cell with a prebaked anode has a major challenging problem that hinders the development of the worldwide aluminum industry, and it is determined to measure anode current distribution.

At the present time, a relatively universal method is for a worker to use an anode current distribution fork to periodically detect equidistant drops in millivolts on an anode control rod in order to understand the anode current distribution in the electrolysis cell and thereby analyze and judge whether anodes in the electrolysis cell are operating normally and adjust the anodes that are operating abnormally . Data obtained by this method is transient, and cannot meet the requirements for real-time monitoring of the electrolysis cell. At the same time, this method is time-consuming, labor-intensive and unsafe to use.

From CN 2578341 Y, a current distribution measuring device for an aluminum electrolysis tank is known. An anode measuring device is composed of a U-shaped steel channel, an insulating plate and a measuring wire. The U-shaped steel channel attaches the insulating plate to an anode terminal and measures the current distribution of the anode terminal through the contact points of both ends of the insulating plate and the measuring wire.

Summary of the Invention

To solve the above technical problems, the present invention provides an apparatus for on-line measurement of anode current distribution of an aluminum electrolytic cell according to claims 1-15, to perform real-time monitoring and accurate control of the anode current of the electrolytic cell.

In order to achieve the above-mentioned purposes, the present invention is implemented in such a way that the device for on-line measurement of anode current distribution of the aluminum electrolysis cell comprises: an insulating connecting body which is provided on the inside with a measuring contact, and which is externally fixed on a fastening means.

The measuring contact is a metal conductor, one end of the measuring contact is threaded, the measuring contact is attached to the insulating connector body via the threaded end, and the other end of the measuring contact is of a conical or spherical shape.

The measuring contact is fixedly arranged on the insulating connecting body one by one in the current direction of an anode guide rod.

The insulating coupling body is attached to the inside of the fastening element via bolts.

The fastening device includes the following structures: a concave-shaped steel band, a rivet support is arranged at one end of one edge of an opening of the concave-shaped steel band, an outer end of the locking support is fixed with one end of a handle via a pin shaft, a middle part of the handle is fixed with one end of a connecting rod, the other end of the connecting rod is fixed with one end of a locking ring, and the other end of the locking ring is arranged around the other edge of the opening of the concave shaped steel band.

One end of the other edge of the opening of the concave shaped steel rail is bent outward.

The handle is H-shaped.

An adjusting nut located on the connecting rod passes through the handle.

The locking ring is connected to the connecting rod in a pin manner.

Advantages of the present invention are as follows: the present invention has advantages in a simple structure, safe operation, long life and easy assembly and disassembly, lower labor costs, reduced cell power coefficient, and reduced energy consumption at the aluminum factory. As the adjustment nut for fastening and adjustment of looseness is mounted at the opening of the concave-shaped steel band, in a fully open state, the fastening means are completely open on one side, so that the means can be smoothly and quickly mounted on the guide rod; a gap, can be adjusted in the locked state, so as to ensure close contact between the measuring contact and the anode guide rod.

Brief description of the figures

Figure 1 is a front view of a device for on-line measurement of the anode current distribution of an aluminum electrolysis cell according to the present invention.

Figure 2 is a side view of the device in Figure 1.

Figure 3 is a plan view of the device for on-line measurement of the anode current distribution of an aluminum electrolysis cell according to the present invention in a closed state.

Figure 4 is a plan view of the device for on-line measurement of anode current distribution over an aluminum electrolysis cell according to the present invention in an open state.

In the figures, the reference number 1 denotes the measurement contact; 2 the insulating coupling body, 3 the bolt, 4 the handle, 5 the concave steel band; 6 the locking ring; 7 the connecting rod, 8 the adjusting nut, 9 the locking support; 10 the anode control rod.

Detailed description of preferred embodiments

The present invention will be further described with reference to the figures. In practical application, an apparatus for online measurement of anode current distribution of an aluminum electrolytic cell according to the present invention can be directly attached to an aluminum electrolytic cell's control rod, and electrical signal can be transmitted to a cell controller through a wire for a measuring conductor.

As shown in the figures, the device for on-line measurement of the anode current distribution comprises the aluminum electrolytic cell according to the present invention consists of the following structures: an insulating connecting body 2 which is provided on the inside with a measuring contact 1 and which is externally fixed on a fastening means, measuring contact 1 is a metal conductor, if one end measuring contact 1 is threaded, measuring contact 1 is fixed with the insulating connecting body 2 via the threaded end, and the other end of the measuring contact 1 is of conical or spherical shape, the measuring contact is fixedly arranged on the insulating connecting body 2 one by one in the direction of current from an anode guide rod 10, the insulating coupling body 2 is attached to the inside of the fastening member via bolts 3. In addition to the threaded connection method, one end of the measuring contact 1 can also be attached to the insulating coupling body 2 by means of rivets ( not shown).

The fastening means consists of the following structures: a concave-shaped steel band 5, a locking support 9 is arranged at one end of one edge of an opening of the concave-shaped steel band 5, an outer end of the locking support 9 is fixed with one end of a handle 4, via a pin shaft, a middle part of the handle 4 is fixed with one end of a connecting rod 7, the other end of the connecting rod 7 is fixed with one end of a locking ring 6, the other end of the locking ring 6 is placed around the other edge of the opening of the concave-shaped steel band 5, one end of the other edge of the opening of the concave-shaped steel band 5 is bent outward, the handle 4 is H-shaped, and an adjusting nut 8 is provided on a connecting rod 7 passing through the handle 4. But those skilled in the art can understand that in addition to the adjusting nut 8 arranged on the connecting rod 7 passing through the handle 4, other types of adjusting devices for adjusting the fastening means, for example, an adjusting bolt, an adjusting pin (which may perform adjustments in cooperation with bolt holes which is arranged on the piston rod at an interval), or an adjustable bearing. The regulating means used in the present invention are compact, flexible and practically mountable and which contribute to improving the accuracy of the sampling.

The locking ring 6 is connected to the connecting rod 7, by means of a locking pin method, the connecting rod 7 is rotatable in the locking ring 6 to ensure adjustment of the looseness of the device for on-line measurement of anode current distribution of the aluminum electrolysis cell via the adjusting nut 8 when the fasteners are in a locked state.

In addition, in order to improve the stability of the contact between the measuring contact and the anode guide rod, in the locked state, the measuring contact 1 is fixed with the insulating connecting body 2 through the threaded end, the other end of the measuring contact 1 can also be in other shapes, such as a truncated cone shape or an elongated shape, so that said second end of measuring contact 1 can form a small planar contact or linear contact with the anode guide rod in the locked state.

Claims (15)

Claim 1. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell, consisting of the following structures: an insulating connecting body (2) which is provided on the inside with a measuring contact (1), and which is externally fixed on a fastening means, characterized in that the measuring contact (1) is a metal conductor, one end of the measuring contact (1) is threaded, and the measuring contact (1) is attached to the insulating connecting body (2) via the threaded end, where the attachment means includes the following structures: a concave - shaped steel band (5), as well as a locking support (9) arranged at one end of one edge of an opening of the concave shaped steel band (5), an outer end of the locking support (9) is attached with one end of a handle (4 ) via a locking pin shaft, a middle part of the handle (4) is fixed with one end of a connecting rod (7), the other end of the connecting rod (7) will be fixed with one end of the locking ring (6), and the other end of the locking ring (6) is placed around the other edge of the opening of the concave shaped steel band (5). 2. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 1, characterized in that a second end of measuring contact (1) is of a truncated cone-shaped or elongated shape. 3. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 1, characterized in that a second end of measuring contact (1) is of a conical or spherical shape. 4. The device for on-line measurement of anode current distribution of an aluminum electrolysis cell as stated in one of claims 2-3, characterized in that measuring contacts (1) are fixedly arranged on the insulating connecting body (2) one by one in the direction of flow from an anode guide rod. 5. A device for on-line measurement of anode current distribution of an aluminum electrolysis cell, comprising the following structures: an insulating connecting body (2) which is provided on the inside with a measuring contact (1), and which is externally fixed on a fastening means, characterized in that the measuring contact (1) is a metal conductor, and one end of the measuring contact (1) is attached to the insulating connecting body (2) via rivets arranged on it, where the attachment means includes the following structures: a concave-shaped steel band (5), as well as a locking support (9) arranged at one end of one edge of an opening of the concave shaped steel band (5), an outer end of the lock support (9) is fixed with one end of a handle (4) via a lock pin shaft, a middle part of the handle (4) is attached with one end of a connecting rod (7), the other end of the connecting rod (7) will be attached with one end of the locking ring (6), and the other end of the locking ring (6) is placed around the other edge of the opening of the concave shaped steel band (5). 6. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 5, characterized in that a second end of the measuring contact (1) has a truncated cone-shaped or elongated shape. 7. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 5, characterized in that a second end of the measuring contact (1) is of a conical or spherical shape. 8. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell as specified in one of claims 6-7, characterized in that measuring contacts (1) are fixedly arranged on the insulating connecting body (2) one by one in the direction of flow from an anode guide rod. 9. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 1 or 5, characterized in that the insulating connecting body (2) is fixed on the inside of the fastening means by means of bolts. 10. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell, comprising the following structures: an insulating connecting body (2) which is provided on the inside with a measuring contact (1), and which is externally fixed on a fastening means, characterized in that the fastening means includes the following structures: a concave-shaped steel band (5), as well as a locking support (9) arranged at one end of one edge of an opening of the concave-shaped steel band (5), an outer end to the locking support (9) is attached with one end of a handle (4) via a locking pin shaft, a middle part of the handle (4) is fixed with one end of a connecting rod (7), the other end of the connecting rod (7) will be fixed with one end of the locking ring (6), and the other end of the locking ring (6) is placed around the other edge of the opening of the concave shaped steel band (5). 11. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 10, characterized in that one end of the other edge of the opening of the concave-shaped steel strip (5) is bent outwards. 12. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 11, characterized in that the handle (4) is H-shaped. 13. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell as specified in one of claims 10-12, characterized in that an adjustment device is arranged on the connecting rod (7) which passes through the handle (4). 14. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 13, characterized in that the adjustment means comprise an adjustment screw, an adjustment pin or an adjustable bearing. 15. Device for on-line measurement of anode current distribution of an aluminum electrolysis cell according to claim 10, characterized in that the locking ring (6) is connected to the connecting rod (7) by means of a locking pin method.