DE3439078A1 - Process and apparatus for cleaning loose anode fragments - Google Patents

Abstract

In order to reuse anode fragments which are produced during the operation of an igneous electrolysis by chipping or bursting of the anodes, the anode fragments recovered from the electrolysis bath must be cleaned of the adhering bath material. <??>As the anode fragments are no longer suspended from the anode rods, they can not be cleaned in the cleaning station for spent anodes by automatically operating cleaning machines. <??>The process according to the invention enables, using the apparatus according to the invention, complete automatic cleaning of adhering bath material from the anode fragments, without manual secondary treatment being required. The anode fragments (3), suspended in a net (5), are cleaned of the bath material (4) by shot-blasting with blast compounds (18), a device (9) alternately raising and lowering the net (5) on two opposite sides, and the anode fragments (3) being set into back-and-forth rolling motion. <IMAGE>

Description

H 84/52

Annex to the patent application by

Klöckner-HumDoldt-Deutz

Corporation

dated October 22, 1984

Method and device for cleaning loose anode fragments

The invention relates to a method and an apparatus for cleaning the bath material from loose anode fragments that occur during the operation of a Melt flow electrolysis by flaking or bursting of the anodes or by their premature detachment from the Anode rod arise.

Carbon anodes, which are used in the melt flow electrolysis for the production of aluminum, are one exposed to high thermal loads. That is why there are always anodes that do not cope with this load withstand. This is noticeable when parts of the anode flake off. Another common occurrence is the as "Splitting" meant failure when the anodes ruptured horizontally approximately in the middle. You can also Loosen the anodes from the connection nipples on their anode rod. The chipped and broken parts of the anoa float in the Electrolysis bath and disrupt the electrolysis process considerably. You are therefore immediately removed from the electrolytic bath brought out.

The anode fragments consist of unburned carbon and thus represent a high-quality,

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recyclable raw material for the manufacture of new anodes. When the fragments from the electrolytic bath have been recovered, their surface is completely covered with bath material. This bath material must be before recycling of the anode fragments can be completely removed from the surface thereof.

Since the anode fragments are no longer attached to the anode rods, they cannot be used in the usual way Operating sequence in the cleaning station for anode residues by automatically operating cleaning machines be cleaned. For this reason, the anode fragments are still cleaned by hand today. There The cleaning process is when the bath material adheres very firmly to the surface of the anode fragments correspondingly laborious and time-consuming.

The object of this invention is to clean up automate the bath material from loose anode fragments so that manual cleaning is no longer necessary is required.

This object is achieved in that the anode fragments sag in a network Centrifugal blasting can be cleaned from the bath material with blasting agents. A net as a container for them Anode fragments to be cleaned has the particular advantage that fragments of different sizes can be easily cleaned can be handled and reached from all sides by the abrasive.

In an advantageous embodiment of the method, the network is through a device on two opposite Pages alternately raised and lowered and the anode fragments within the network are in the area of the

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The cleaning abrasive is set in a back and forth rolling motion. This procedure enables the complete, automatic cleaning of the anode fragments from the bath material, without the often several hundred kilograms heavy fragments have to be moved by human hands.

In a further advantageous embodiment of the method, the anode fragments are loaded and unloaded the net is lowered between a number of columnar stands arranged in a grid, the cleaned Anode fragment deposited on these stands and by a suitable transport device, preferably one Forklift, picked up and removed, while a new anode fragment to be cleaned on the stands and the net is lifted to clean the fragment and emerging between the uprights Absorbs fragment. The network advantageously has such a shape that it, completely lowered, between the uprights fits and the stands pierce the mesh. The specially designed support for the anode fragments with the The possibility of completely lowering the network allows problem-free handling of even the most difficult Anode fragments too.

The device according to the invention is illustrated using an exemplary embodiment shown in the drawing and the method according to the invention explained in more detail.

A cabin 1 that is closed on all sides has a floor made of columnar stands 2 arranged in a grid-like manner. Through a "closable" opening, not shown, an anode fragment 3, which is covered with bath material 4, is transported in and placed on the stand 2. The transport can, for example, be advantageous with forklifts done with their mounting device without any problems

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can move between the stands. The net 5, an endless belt made of chains or steel cables, is during the Change of the anode fragments is lowered and lies between the uprights 2. In the area of the support of the The anode fragment 3 consists of massive meshes extending transversely to the longitudinal direction of the belt-shaped network Rods 6, which are made of a particularly wear-resistant material, for example manganese steel, thus the wear caused by the rolling movements of the anode fragments and the effects of the abrasive remains wrestled.

When the opening for the transport to and from the cabin 1 has been closed, the net 5 is raised by the device 9. The net hangs in the form of a loop through two openings 7 and 7 ¹ in the ceiling of the cabin 1. Above the openings 7 and 7 ', the two sides of the belt-shaped net 5 are each guided ^{over two pulleys and 8 1.} The device 9, with which the handling of the net takes place, is arranged above the car 1. On the right-hand side of the device 9 there is the device 10 for completely lowering and picking up the net 5. The net wraps around two deflecting rollers 11 and 11, which are arranged vertically above one another at a distance. A hydraulically operated tensioning carriage 12 with a deflection roller 13 can be pushed back and forth between these two deflection rollers. Moving can also be done pneumatically or by motor. The deflection roller 13 is pushed horizontally to the left with the tensioning carriage 12 between the two deflection rollers 11 and II ^1. The net 5 loops around the deflection roller 13 of the tensioning carriage 12 and is taken along, with a stroke length of the net 5 that is twice as long as the displacement path of the tensioning carriage.

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By moving the tensioning carriage 12, the network 5 is thus made picked up and raised. It emerges between the stands 2, picks up the anode fragment 3 and lifts it into the Area in which it is to be cleaned. During this lifting process, the device 14 is reciprocal Lifting and lowering of the net not in operation. It consists of a motor 15 with reversing gear 16 to which Chain wheels 17 are flanged, which alternately raise and lower the network 5 by turning it back and forth. It can for lifting and lowering, any other device can also be used, for example a pole-changing motor or a wheel with an eccentric drive.

By means of the device 10, the net 5 is raised so far that the anode fragment 3 comes into the effective area of the blasting media 18. At least one opening 19 or 19 * is provided in the wall or ceiling of the cabin 1, through which blasting media 18 is thrown into the KaDine 1 onto the anode residue 3 in order to clean the bath material 4. The supply of the blasting media 18 is done with centrifugal wheels or compressed air by machines not shown and described. Quartz sand or steel balls, for example, can be used as blasting media 18.

During the cleaning process, the device 14 for reciprocal lifting and lowering of the net 5 is used operated. The motor 15 drives the chain wheels 17 via the reversing gear 16 to a reciprocating motion Movement on. The network 5 looping around one side of the chain wheels 17 is thereby moved over the deflecting rollers 8 and 8 'on opposite sides alternately raised and lowered. The anode fragment 3 is in a brought back and forth rolling motion, whereby every point of the surface of the action of the blasting media 18 exposed and beneficial a thorough cleaning of the

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Anode residue 3, also in cracks and flakes, is achieved. Blasting media 18 and removed bath material 4 fall through openings 20 located between the uprights 2 on a known conveyor system and become one Processing plant supplied, in which blasting media and bath material are separated from each other for recycling will.

Once the anode fragment 3 has been cleaned of the bath material 4, the device 14 is switched off and the tensioning carriage 12 the device 10 to completely drain the network 5 is retracted. The net is lowered between the uprights 2 and the cleaned anode fragment 3 is placed on the stand 2 for removal.

Claims (7)

October 22, 1984 KHD Sas / Gn · H 84/52 patent claims 1. A method for cleaning the bath material from loose anode fragments that arise during the operation of a melt flow electrolysis by chipping or bursting of the anodes or by their premature detachment from the anode rod, characterized in that the anode fragments (3) hanging in a network (5) by centrifugal blasting with blasting media (18) from the bath material (4) be cleaned. 2. The method according to claim 1, characterized in that the network (5) is alternately raised and lowered by a device (9) on two opposite sides and the anode fragments (3) within the network (5) in the area of the cleaning blasting media (18) be set in a to-and-fro movement. 3. The method according to claim 1 or 2, characterized in that for loading and unloading the anode fragments (3) the network (5) is lowered between a number of grid-shaped, columnar stands (2), the cleaned anode fragment (3) on these stands (2) is deposited and picked up by a suitable transport device, preferably a forklift, and transported away, while a new anode fragment to be cleaned is placed on the stand and the net is lifted to clean the fragment and picks up the fragment emerging between the stands. 4. Device for performing the method according to one of claims 1 to 3, characterized in that the network (5) in the device (9) with a device (14) for L Q q η 7 ρ HO \ J U / ο - 2 - KHD H 84/52 reciprocal lifting and lowering as well as with a device (10) for complete lowering and picking up of the network is connected. 5. The device according to claim 4, characterized in that the device (14) for reciprocal HeDen una lowering of the network (5) from a drive motor (15) with reversing gear (16) and chain wheels (17), and the device (10) for Lowering and picking up the net consists of a tensioning carriage (12) with a pulley (13). 6. Apparatus according to claim 4 or 5, characterized in that in the region of the support of the anode fragment (3) the cross connections of the network (5) are formed by cross bars (6) made of wear-resistant material. 7. Device according to one of claims 4 to 6, characterized in that the network (5) is designed in the form of an endless, wide belt which supports the deflection roller (13) of the tensioning carriage (12) and the chain wheels (17) of the reversing gear ( 16) for the most part wraps around.