NO166335B - APPLIANCE FOR AA REMOVE ANODE BLOCK REMAINS FROM ANODA BAR TUMPS. - Google Patents

Abstract

An apparatus for breaking away the remainder of an anode block from pieces of an anode rod has sliding members (23, 24) which can be moved downwards to slide against the upper surface of the anode block, and a device (11) for preventing the anode rod from moving downwards while the sliding parts slide towards the block. To ensure that the anode rod is prevented from moving downwards and to achieve that the rest is removed with the least possible crushing, the two sliding parts (23,24) consist of two long sliding beams which are arranged to engage with the anode block on the respective opposite sides. of the anode rod, and the device (11) for preventing the anode rod from moving downwards is constituted by at least one stop element which can be moved to a position between the pieces of the anode rod and above the level of the sliding beams. (23,24).

Description

The invention relates to an apparatus for breaking away remnants of anode blocks from anode rod stubs.

In the electrolysis of aluminum oxide for the production of aluminium, carbon anodes are used which are suspended on an anode rod using e.g. two stubs of a Y-piece (also called break piece or fork piece) at the lower end of the anode rod attached to the current-carrying conductor.

After, for example, approx. After 26 days, an anode block has become excessively worn, and the block must be replaced with a new block. The remains of the anode block located on the Y-piece must be broken away from the Y-piece. However, due to the fact that the residual value of large carbon fragments is higher than that of small carbon fragments, it is important as far as possible to free the anode block from the broken piece in the form of a whole block or in the form of the largest possible fragments.

Dutch patent application 6903190 corresponding to

British patent application 1269809, relates to an apparatus for breaking anode block residues away from the anode rod which is also intended to break up the residues, and for this purpose crushing teeth are used. To break away the block, two pairs of movable clamp mounts grip the anode rod stubs by friction, while the clamp parts both carry a thrust disc that can move downwards. There are thus four disks that act on different parts of the anode block at a distance from each other.

The present invention aims to be able to remove the anode block in one piece or in the form of as large pieces as possible. The invention also aims to avoid the disadvantages of frictional gripping of the anode rod and to provide a relatively simple construction that is able to withstand the high forces that may arise »

The invention thus relates to an apparatus as specified in claim 1's preamble, and the apparatus is characterized by the features specified in claim 1's characterizing part.

It appears that when using the device according to the invention, the anode blocks can be kept almost completely intact and thus retain the maximum possible residual value.

The apparatus preferably has a lift to move the anode rod which is suspended in the lift vertically.

The device preferably also has a frame and two carriages which can be moved horizontally on the frame towards or away from each other, and each carriage has a front part on the ends which are opposite in relation to the other front part, and sky.ve beams are mounted so that they can move vertically on

the respective front parts, while a control channel is arranged in one of the front parts to control the stop element. This construction offers the advantage that the high separation forces on at least one side act within the structure of the front part.

An embodiment of the invention will now be described in the form of an ekemsepel and with reference to the drawings, where Fig. 1 shows a top view of the device according to the invention,

Fig. 2 shows a side elevation of the apparatus shown on

Fig. 1,

Fig. 3a shows a section (taken along the line 3a-3a in Fig. 4) and Fig. 3b a side elevation of parts of the apparatus according to Fig. 1, but on a larger scale, and Fig. 4 shows a front elevation of the part which is shown in Fig. 3a.

At a suitable distance below a single rail track from which the anode rod is suspended and which, together with the rod, is not shown, the apparatus according to the invention shown in Fig. 1 and 2 is mounted. The apparatus comprises a rectangular frame 1 which extends horizontally and vertically, and two switch carriages 2 and 3 which can be moved horizontally and at the same time are arranged within the rectangular frame 1. The carriages 2 and 3 can be simultaneously set in motion by means of respective carriage cylinders 4 and 5 between vertical carriage steering devices 7 (Fig. 2)

in the form of two pairs of freely movable rollers which are mounted on the frame 1. It appears from Figs 1 and 2 that the switch carriages 2 and 3 can be moved towards and away from each other over a certain distance. Fig. 1 shows that the switch carriages 2 and 3 are also controlled horizontally by means of horizontal carriage control devices 6 in the form of two pairs of freely movable rollers which are mounted on the frame 1.

At their inner, opposite ends, the switch carriages 2, 3 are both provided with a front part in the form of a large front plate 8, 9, and in the space between these two front plates 8, 9, an elevator which can be moved vertically and is not shown in the figures, raise or lower the anode rod which is suspended from it, when the carriages 2 and 3 are moved apart. A rod control device 10 which is attached to the frame 1 prevents the suspended anode rod from swinging too much.

Fig. 3a, 3b and 4 show the front plates 8 and 9 on a larger scale. The front plate 8 supports a horizontally movable stop element in the form of a flat, rectangular rod or pin 11 which is moved horizontally by a cylinder unit 12 which is fixedly mounted on the switch carriage 2. The pin 11 can move horizontally in a guide channel 13 which is formed in the front of the plate 8 and a front extension of this.

This construction is suitable for an anode block with two or four pieces or stubs.

Two pairs of bearing blocks 14 and 15 are mounted on each of the front plates 8 and 9, and a pair of guide rods 17 and 18 can move vertically in the bearing blocks. These rods 17 and 18 are connected between pairs of blocks 14 and 15 by means of a transversely arranged, yoke-shaped connecting assembly of plates 16, and this assembly is attached at its outer ends to a pair of vertically acting hydraulic cylinder units 20 and 21. These cylinders 20 and 21 piston rods are at 25 mounted on the front plate. At their lower ends below the bearing block 15, the guide rods 17 and 18 together support a sliding beam 23, 24 which extends in a horizontal direction. Each front plate is provided on its back with a vertical adjustment screw 26 to adjust the height in relation to the track for the switch carriages 2 and 3.

During use, when an anode rod with two stubs and

a Y-piece (not shown) where the side surfaces of the Y-piece run parallel to the front plates 8 and 9, is lowered, the carriage cylinders 4 and 5 are first set in motion so that the switch carriages 2 and 3 will move towards each other over a given distance and punch up with the front plates 8 and 9 at a mutual distance from each other that is somewhat greater than the width of the anode

the block.

If the anode rod is now placed in the correct position with the gap between the ends of the Y-piece in front of the pin guide channel 13, the pin 11 will be guided into the gap by starting the pin cylinder 12. Then the four push cylinders 20 and 21 are started so that the two push beams 23 and 24 are pressed downwards against the upper surface of the anode block (which is located below the pin 11) by means of the connection plates 16 and the guide rods 17 and 18. This causes the rod with the anode residue to be pressed downwards until the Y-piece meets the pin 11 which prevents the Y- the piece from moving downwards. In principle, the beams 23, 24 will thus come into engagement with the anode block over a substantial length which extends on the side of and preferably over the full length of the Y-piece. The anode residue is now pushed away from the Y-piece and falls as a whole into a tray arranged below the switch device.

Due to the fact that the high separation forces which act between the pin 11 and the pin guide channel 13 on the one hand and the push beams 23 and 24 on the other hand, act internally, i.e. within the structure of the front plates 8 and 9, and due to the fact that the relevant components has a robust construction, the guides will not be deformed, and no forces will act externally.

The bottom surfaces of the sliding beams 23 and 24 extend obliquely downwards towards their inner edges, i.e. the beams are trapezoidal, as shown in Fig. 3, so that when they are pushed downwards, the greatest force will be exerted towards the top of the anode block as close as possible to the two sides of the Y-piece stubs.

When the anode residue has been pushed away from the Y-piece, the anode rod is pulled slightly upwards, and any residue remaining in the Y-piece opening is now removed. Then the hydraulic cylinders 20 and 21 are set in motion in the opposite direction, and the pin 11 is pulled; back into the channel 13, after which the switch carriages 2 and 3 are again removed from each other by suitable actuation of the two carriage cylinders 4 and 5. The anode rod with Y- the piece, which is now clean, can be raised by the lift or winch and removed via the mono rail.

Although the anode residual switch device according to the embodiment described and shown here is suitable for the case where the anode block is connected to the anode rod by means of only two stubs (of a Y-piece), the present invention is not limited to this case because the principle of the invention is equally applicable in connection with other known types of anode blocks with three, four or six stubs. For anode blocks with three or six stubs (two rows of three stubs) two stop pins are required that can be moved parallel to each other, while for an anode block with four stubs (arranged in the form of a square) it is sufficient one stopper.

Claims (3)

1. Apparatus for breaking away the remainder of an anode block from the stumps of an anode rod, the apparatus having on each side of the anode rod sliding parts (23, 24) which can be moved downwards to push against the upper surface of the anode block, and a device (11) for prevent the anode rod from moving downwards while the pusher parts push against the block, the device (11) consisting of at least one stop element which can be moved into a position between the ends of the anode rod and above the level of the pusher parts (23, 24), characterized in that it has a frame and two carriages (2, 3) which can be moved horizontally on the frame towards and away from each other and each of which has a front part (8, 9) at its end which is opposite in relation to the other carriage, in that the sliding parts (23, 24) consist of two sliding beams which extend lengthwise and are arranged to engage with the anode block and which are respectively mounted on the aforementioned front parts to move vertically in relation to these, and in that the stop element (11 ) is arranged in a control passage (13) in one of the front parts to control the stop element. 2. Apparatus according to claim 1, characterized in that it also comprises an elevator for vertically moving the anode rod which is suspended from the elevator. 3. Apparatus according to claim 1 or 2, characterized in that the push beams (23, 24) have obliquely extending lower surfaces and that the lower edge of these in each case is located on the side of the beam which faces the other beam.