RU227353U1 - DEVICE FOR FASTENING THE ANODE HOLDER ROD OF AN ALUMINUM ELECTROLYSER WITH BALINED ANODES - Google Patents

Abstract

The utility model relates to the field of non-ferrous metallurgy, in particular to the electrolytic production of aluminum in cryolite-alumina melts, namely to the structural elements of electrolyzers with baked anodes. The device contains a clamp of the anode holder rod with two stops made in the form of levers, hingedly connected to each other on one side by an axis, on the opposite side the stops are connected to nuts containing holes with an internal thread pitch opposite to each other for the possibility of insertion of a tightening fastener into the said holes , wherein the free ends of the common axis are placed on the hooks of the brackets mounted on the anode frame, and the clamp contains a clamping device placed between the stops with two arms in contact with the anode rod, and two limiting arms installed in the grooves of the stops, with a tightening fastening element contains three zones: two threaded zones and one locking zone, made with the possibility of centering the stops relative to the tightening fastener. The technical result is to ensure voltage stability between the anode holder rod and the anode frame and increase the reliability of pressing the anode holder rod to the anode frame. 2 salary f-ly, 4 ill.

Description

Field of technology

The utility model relates to the field of non-ferrous metallurgy, in particular to the electrolytic production of aluminum in cryolite-alumina melts, namely to the structural elements of electrolyzers with baked anodes.

State of the art

When producing aluminum in electrolyzers with baked anodes, the current supply is carried out by mechanically pressing the anode holder, which is an aluminum rod, to the busbar using special screw clamps. During electrolysis, anode holders with carbon anode blocks are lowered or replaced to compensate for the wear of the anodes during their combustion to maintain a constant distance between the anode and the cathode of the electrolyser. The clamps are controlled (opening and closing) by special manipulator devices provided on the complex crane, providing simultaneous maintenance of both the clamp and the anode holder. Thus, the clamping force of the screw clamp must ensure that the anode holder is tightly pressed against the anode frame, capable of supporting the weight of the anode, and also ensure optimal electrical contact without a voltage drop across them, which is the main criterion for the efficiency of the clamps.

The device is known according to patent RU 2398053, publ. 08/27/2010. It contains two hooks mounted on the anode frame, between which the anode rod must be placed, a clamp containing a housing, including two levers having at least one supporting surface, two coaxial side rods intended for laying on the hook and a drive in the form of a lag screw, capable of causing the levers to rotate around the axis of the rods between the tightened position and the released position. The geometry and construction material of at least one hook, one lever and/or one side rod provide sufficient elastic deformation of the device relative to the anode frame during tightening of the screw. The disadvantage of such a device is the reduction in elastic deformation of the levers during operation, which leads to an increase in the unevenness of pressing the anode holder rod to the anode frame, causing a voltage drop between them, as well as a drop in the anode holder rod due to a decrease in the tightening force of the lag screw.

The device is known according to patent RU 2724774, publ. 06/25/2020, containing two levers in the form of brackets or clamps, hingedly connected on a common rod extending inside the hooks mounted on the anode frame, while the levers are actuated by means of a tightening screw with two zones of opposite pitch, the pressure surface of the connector formed by two pressing elements rigidly connecting said brackets or clamps to each other, and located on both sides of the pivot joint of the levers or clamps, wherein the pressing surface of each of the two pressing elements interacts with a hinge installed at the end of the front crossbars connecting the two brackets or clamps, forming a connector made in the form of two U-shaped brackets, with the free ends of the brackets connected to each other by a plate, and the base of the U-shaped bracket is connected to the corresponding pressure surface. The disadvantage of such a device is the complex composite design of the clamping device, the destruction of which will result in a voltage drop between the anode holder rod and the anode frame, as well as a fall of the anode holder rod due to a decrease in the tightening force of the lag screw.

The device is known according to patent RU 2439208, publ. 12/20/2008, consisting of two brackets or jaws acting as levers, which are attached with hinges on a common axis, the corresponding extensions of the axis are accepted by the hooks of the anode frame, working in conjunction with the clamp, and are actuated using a clamping screw with two zones and a thread pitch of in opposite directions, working together at the level of the traverses, bringing the free ends of the brackets together. The clamping surface of the connector, that is, the area intended to work with the anode holder rod to connect the latter to the anode frame, is formed by a clamping device, separate from the brackets or traverses, combining them with each other, while the clamping device is self-aligning on the clamp. At the same time, the disadvantages of this device are low maintainability due to poor disassembly of the clamping screw and protective bushings on the common axis of the clamp.

It should be noted that the devices described above have a common drawback, expressed in the lack of alignment of the levers relative to the tightening screw, as a result of which uneven pressing of the anode holder rod to the anode frame is possible, as well as incomplete pressing due to the lack of power reserve of the tightening screw.

Implementation of a utility model

The objective of the utility model is to improve the maintainability of the device by improving the design of fixing the head of the clamping screw and the protective bushings on a common axis, as well as ensuring a guaranteed power reserve of the tightening screw.

The technical result from the use of the claimed utility model is to ensure stability of the voltage between the anode holder rod and the anode frame and increase the reliability of pressing the anode holder rod to the anode frame.

The technical result is achieved by the fact that in the device for fastening the anode holder rod 1 on the anode frame 2 of an aluminum electrolyser, containing a clamp 4 of the anode holder rod 1 with two stops 5, 6, made in the form of levers, hingedly connected to each other on one side by an axis 7, on the opposite side the sides of the stops 5, 6 are connected to nuts 8, 9 containing holes with an internal thread pitch opposite to each other to allow the tightening fastener 14 to fit into said holes, while the free ends of the common axis 7 are placed on the hooks of the brackets mounted on the anode frame 2 , and the clamp 4 contains a clamping device 19 placed between the stops 5, 6 with two arms 20, 21 in contact with the anode rod 1, and two limiting arms 22, 23 installed in the grooves 24, 25 of the stops 5, 6, what is new is that that the tightening fastener 14 contains three zones: two threaded zones 15, 16 and one locking zone 17, made with the possibility of centering the stops 5, 6 relative to the tightening fastener 14.

What contributes to achieving a technical result is that:

the ends of the axis 7 are hingedly connected to the protective bushings 12, fixed on the axis 7 by means of locking rings 13.

the tightening fastener 14 contains a head 18, made with a square cross-section and press-fitted to the tightening fastener 14 by means of a slot, while the head 18 is configured to impart rotational movement to the tightening fastener 14.

Brief description of drawings

The utility model is illustrated by drawings.

In fig. Figure 1 shows a schematic illustration of an electrolyzer in isometric view, front view.

In fig. Figure 2 shows a schematic isometric representation of the device, front view.

In fig. 3 and 4 show a vertical section of the device in the open and closed positions, respectively, where:

1 - anode holder rod;

2 - anode frame;

3 - bracket;

4 - clamp of the anode holder rod;

5, 6 - clamp stops;

7 - clamp axis;

8, 9 - nuts;

10, 11 - axis of nuts;

12 - protective sleeve;

13 - retaining ring;

14 - tightening fastening element;

15, 16 - threaded zone;

17 - stop zone;

18 - head of the tightening fastener;

19 - clamping device;

20,21 - arms of the clamping device;

22, 23 - limiting shoulders;

24, 25 - grooves for clamp stops.

The claimed utility model for a device for fastening an anode holder rod contains a clamp for an anode holder rod (4), consisting of two stops (5, 6), hingedly connected to each other by an axis (7), as well as with nuts (8, 9) through the axles (10, eleven). The ends of the axle (7), resting on the bracket hook (3), are pivotally connected to protective bushings (12), which are fixed on the axle (7) by external locking rings (13). Each nut (8, 9) has a hole with an internal thread pitch opposite to each other, designed for insertion of a tightening screw (14), containing three zones: two threaded with opposite thread pitches (15, 16) and one locking zone (17), ensuring the alignment of the stops (5, 6) relative to the tightening fastener (14), which has a square head (18), tightly connected to the tightening fastener (14) with a square slot and through which the tightening fastener (14) is given rotational movement by a manipulator mounted on a complex crane. The clamp (4) has a clamping device (19) installed between two stops (5, 6) hingedly connected to each other by an axis (7). The clamping device (19) has two arms (20, 21) and two limiter arms (22, 23), which are installed in the grooves (24, 25) of the stops (5, 6).

Description of the device operation

The anode holder rod (1) is pressed to the anode frame (2) as follows: the anode holder rod (1) is placed between two brackets (3) installed on the anode frame (2) using a bolted connection, then a clamp ( 4), placing its axle (7) with protective bushings (12) on the hooks of the brackets (3), while the clamp (4) is in the open position. In this position, the arms (20, 21) of the clamping device (19) do not exert or exert very little force on the anode holder rod (1) (Fig. 3). Then, using a manipulator mounted on a complex crane, the tightening fastening element (14) is given a rotational movement so that through movement along the threaded part of the nuts (8, 9), centered at the assembly stage using the locking zone (17) relative to the length of the threaded zones (15, 16) of the tightening fastener (14), rotate the stops (5, 6), bringing the clamp (4) to the closed position. In this position, the arms (20, 21) of the clamping device (19) are in contact with the anode holder rod (1) and press on it perpendicular to it in the direction of the anode frame (2), thereby ensuring holding and pressing the anode holder rod (1) to the anode frame (2) (Fig. 4).

Claims (3)

1. A device for fastening the anode holder rod 1 on the anode frame 2 of an aluminum electrolyser, containing a clamp 4 of the anode holder rod 1 with two stops 5, 6, made in the form of levers, hingedly connected to each other on one side by an axis 7, on the opposite side by stops 5, 6 connected to nuts 8, 9 containing holes with an internal thread pitch opposite to each other to allow the tightening fastening element 14 to fit into said holes, while the free ends of the common axis 7 are placed on the hooks of the brackets fixed to the anode frame 2, and the clamp 4 contains a clamping device 19 placed between the stops 5, 6 with two arms 20, 21 in contact with the anode rod 1, and two limiting arms 22, 23 installed in the grooves 24, 25 of the stops 5, 6, characterized in that the tightening fastening element 14 contains three zones: two threaded zones 15, 16 and one locking zone 17, made with the possibility of centering the stops 5, 6 relative to the tightening fastener 14. 2. The device according to claim 1, characterized in that the ends of the axis 7 are pivotally connected to the protective bushings 12, fixed on the axis 7 by means of retaining rings 13. 3. The device according to claim 1, characterized in that the tightening fastener 14 contains a head 18, made with a square cross-section and tightly connected to the tightening fastener 14 by means of a slot, while the head 18 is configured to impart rotational movement to the tightening fastener 14.