NL8304332A - ANODE RESIDENT BREAKER. - Google Patents

Description

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ANODE RESIDENT BREAKER

The Applicants mention as inventors:

Hendrik Mekkering in Haren.

The invention relates to a device for breaking off the remains of the anode block on the stubs of an anode rod which is supplied suspended from a monorail.

In the electrolysis of alumina to aluminum, use is made of carbon anodes which, for example, are suspended by means of, for example, two stubs of a pant piece from an anode rod which is attached to the current-carrying conductor. After about 26 days, an anode block is worn out and the block must be exchanged for a new block. The remainder of the anode block, which is still on the trouser, must be detached from the trouser. However, since the residual value of large carbon chunks is greatest, it is important to detach the anode block as much as possible in its entirety or in as large pieces as possible from the trouser piece.

The invention provides a device with which this is possible. According to the invention, the device is characterized by a lift for moving the hanging anode rod vertically, further by at least one key movable horizontally in the space between the stumps, and finally by a set of vertically movable pressure beams which are arranged on either side of the stubs under the key can press on the top surface of the anode block.

25. It appears that when using such an arrangement the anode blocks remain substantially intact and thus retain the maximum residual value.

Preferably, such an apparatus for breaking away the remains of the anode block is further characterized by a frame in which two breakers can be moved horizontally towards or away from each other, the breakers each carrying a front plate at the opposite ends, on which front plate each time a pressure beam is guided vertically movable, as well as through at least one wedge channel in one of the front plates for guiding the horizontally movable wedge or 35 wedges. A construction designed in this way has the advantage that the large pressing forces play out within the construction of the front plates.

The invention will be further elucidated on the basis of an exemplary embodiment under reference to the drawing.

Fig. 1 is a top view of the device according to the invention. Fig. 2 is a front view of the device according to the invention. Fig. 3 shows a section on the left and on the right side 5 a side view of a detail on a larger scale, while FIG. 4 represents a front view of this detail.

A suitable distance below a monorail track, not shown, is a device as shown in fig. 1 and 2. The device comprises a rectangular frame 1, in which two horizontally displaceable breaker wagons 2 and 3 can move simultaneously using row cylinders 4 and 5 between vertical carriage guides 7 in the form of two pairs of freely rotating rollers attached to frame 1. As can be seen from Figs. 1 and 2, the breakers 2 and 3 can be moved towards or away from each other for a certain distance. It can be seen from Fig. 1 that the break wagons 2 and 3 are also guided horizontally during their movement by a horizontal carriage guide 6 in the form of two pairs of freely rotating rollers fastened to the frame 1.

Each breaker 2 resp. 3 carries a front plate 8 resp. 9 and in the space between these two front plates - when the carriages 2 and 3 20 have moved apart - the hanging anode rod can be lowered or lowered by means of a lift, which is not shown in detail, which is moved vertically. be hoisted. A rod guide 10 attached to the frame 1 prevents excessive swinging of the hanging anode rod.

Fig. 3 and 4 show the front plates 8 and 9 on a larger scale. As can be seen from Figs. 3 and 4, the front plate 8 is provided with a horizontally movable key 11 which is operated by a cylinder 12 mounted along the breaker wagon 2. The key 11 can move horizontally in a key channel 13 which is located in the front plate 8 is included. This construction is suitable for an anode block with two or four stubs.

Two pairs of bearing blocks 14 and 15 are mounted on the front plates 8 and 9, in which a pair of guide rods 17 and 18 can move vertically. These rods 17 and 18 are connected between blocks 14 and 15 by a set of yoke-shaped connecting plates 16, which plates are attached at their ends to a set of vertically movable hydraulic cylinders 20 and 21. The piston rods of these cylinders 20 and 21 are at 25 on the front plate 8 resp. 9 mounted. On the underside, beyond the bearing block 15, the guide rods 17 and 18 carry a horizontally extending pressure beam 23 and 18 respectively. 24. Each front plate is provided with a vertical adjustment option at the rear O at 26 relative to 0, the path of the breaker wagon 2 resp. 3.

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When, to determine the idea to fig. 3 and 4, when an anode rod with two stubs and a trouser with the plane of the trouser (not shown) is lowered parallel to the front plates 8 and 9, the row cylinders 4 and 5 to be energized such that the breakers 2 and 3 move towards each other over said distance

and come to rest at a distance slightly greater than the I.

1 width of an anode block. I

When the anode rod is correctly positioned with the gap between I.

the stubs of the wedge for the wedge channel 13 ,. the key 11 can pass through I.

10 actuation of key cylinder 12 can be brought into this opening. Ver- I

then the four pressure cylinders 20 and 21 are energized, whereby I

the two I via the connecting plates 16 and the guide rods 17 and 18

> pressure bars 23 and 24 are pressed down. As a result, the I

rod with anode left pressed down to the trouser on the key 11 |

| 15 is coming. Now the anode residue is slid off the trouser piece and falls into its I.

completely in a container placed under the breaker. I

Because the large compressive forces between key 11 and key channel 13 I

on the one hand, and pressure bars 23 and 24 on the other hand, play internally, in I

know within the construction of the front plates.8 and 9, and the relevant I

20 parts are robust, no deformations of J occur

. guides etc. There are no external forces. I

• I

The undersides of the pressure bars 23 and 24 have the ones shown in FIG. 3 designated I

give trapezoidal shape, with the point inward, so that when downward I

the greatest force is exerted on the head of the anode block I.

25 20 as close to both sides of the stubs of the trouser piece as possible. I

When the anode remainder of the trouser is printed, the I.

Anode rod pulled up, any remaining parts in the I

opening of the trouser is still removed. Then the I

hydraulic cylinders 20 and 21 are energized the other way and the key 11 I.

30 pulled into the track 13, after which the breakers 2 and 3 are separated again. I

moving by the respective actuation of the two driving cylinders I.

4 resp. 5 and the anode rod with the currently bare trouser through the lift I.

can be lifted and carried over the monorail. I

Although the anode residual breaker in the illustrated and discussed embodiment is suitable for that embodiment in which the anode block I

by means of only two punches (of a trouser piece) with the anode rod I.

However, the present invention should in no way be connected thereto

are considered to be limited, since the principle underlying the invention is equally true with other known anode blocks having three, four or

40 six stumps is applicable. For anode blocks with three or six (on two I

'8304332', - - 4 - 9 rows of three) stubs then require two parallel movable wedges; with a four-block anode block (arranged in a square), a wedge is sufficient.

I j i l t i! 8304332

Claims (2)

Device as claimed in claim 1, characterized by a frame (1) in which two breakers (2,3) can be moved horizontally towards or away from each other, which breakers (2,3) are moved towards each other. Inverted ends each bear a front plate (8 or 9), on which front plate (8, 9) each a pressure beam (23, or 24) is guided vertically movable, as well as through at least one wedge channel (13) in one of the front 15 plates (8) for guiding the horizontally movable wedge (11) or I wedges. I Device according to claims 1 and 2, characterized in that the two pressure beams (23, 24) have a trapezoidal shape in cross section (fig. 3), with the points inward. * I w I 8304332 ^ _J