CN220887712U - Low-resistance energy-saving anode steel claw - Google Patents

Abstract

The utility model provides a low resistance energy-conserving anode steel claw, includes crossbeam and anode steel claw, the below integrated into one piece of crossbeam is provided with a plurality of anode steel claws, the internally mounted of crossbeam has a plurality of steel sheets, strutting arrangement is installed to the inboard of steel sheet, adjusting device is installed to strutting arrangement's inboard. Can install the recess of crossbeam with two steel sheets in, install the recess of two steel sheets with first riser again in, later be connected fixedly with second rectangle piece and first riser through the bolt, it moves to the intermediate groove of steel sheet to drive the second riser again in, drive the sleeve through hexagonal rotor and rotate, the sleeve can remove through the screw rod, the sleeve can extrude the connecting rod through circular piece like this, make the connecting rod extrude the roof through first rectangle piece etc. to this makes roof cooperation steel sheet support the crossbeam, improves the intensity of crossbeam, and the steel sheet also can dismantle the change alone simultaneously, thereby whole scrapping has been avoided, use cost has been practiced thrift.

Description

Low-resistance energy-saving anode steel claw

Technical Field

The utility model relates to the technical field of aluminum electrolysis equipment, in particular to a low-resistance energy-saving anode steel claw.

Background

The anode steel claw on the electrolytic tank is an important connection structure between the electrolytic aluminum anode guide rod and the carbon block, and the anode steel claw plays a role in connecting the aluminum guide rod and clamping the anode carbon block in terms of mechanical property, and because the weight of each new anode is about 1300kg and the anode steel claw operates at high temperature, the anode steel claw needs enough strength and rigidity.

An aluminum electrolysis device such as the grant publication No. CN202786454U, in particular to an anti-corrosion energy-saving anode steel claw, which comprises a boss. The lower parts of the steel claw legs are made of heat-resistant steel, and the lower parts of the steel claw legs are arranged in carbon pills of anode carbon blocks, so that the steel claw legs are anti-corrosion, anti-oxidation and high-temperature resistant, long in service life, low in resistance, energy-saving and consumption-reducing, and low in resistance. However, since the cross beam of the aluminum electrolysis equipment is of an integral structure, the structure for improving the strength is not arranged in the cross beam, so that the strength of the cross beam is gradually reduced due to the influence of external factors along with use, and the integral scrapping is caused, and the use cost is increased.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, and provides the low-resistance energy-saving anode steel claw, which has the effects of specifically improving the strength of a beam and prolonging the service life of the beam.

The utility model solves the technical problems by adopting the technical scheme that: the low-resistance energy-saving anode steel claw comprises a cross beam and anode steel claws, wherein a plurality of anode steel claws are integrally formed below the cross beam, a boss is fixedly connected in the middle of the upper part of the cross beam, a plurality of steel plates are installed in the cross beam, the outer walls of the steel plates are in clearance fit with the inner walls of grooves of the cross beam, supporting devices are installed on the inner sides of the steel plates, and adjusting devices are installed on the inner sides of the supporting devices.

For further perfection, strutting arrangement includes the roof, a plurality of from top to bottom the outside outer wall of roof is laminated mutually with adjacent steel sheet outer wall, the inboard rigid coupling of roof has first rectangle piece, the preceding terminal surface of first rectangle piece is connected with the connecting rod through the pivot rotation, and the other end of connecting rod is connected with the second rectangle piece through the pivot rotation.

Further perfecting, the outside of second rectangle piece has first riser through bolt threaded connection, and the outer wall of first riser and the outside recess department inner wall clearance fit of steel sheet.

Further perfecting, adjusting device includes the second riser, the outer wall of second riser and the intermediate groove department inner wall clearance fit of steel sheet, the internal middle rigid coupling of second riser has the screw rod, and the equal threaded connection in both ends outer wall of screw rod has the sleeve.

Further perfecting, the outer sides of the left sleeve and the right sleeve are fixedly connected with round blocks, and the outer walls of the round blocks are attached to the outer walls of the connecting rods.

Further perfecting, hexagonal rotating heads are fixedly connected to the inner side outer walls of the left sleeve and the right sleeve.

The beneficial effects of the utility model are as follows: according to the utility model, two steel plates can be installed in the grooves of the cross beam, then the first vertical plate is installed in the grooves of the two steel plates, the steel plates are preliminarily supported, the top plate and the like are driven to move, the second rectangular block is fixedly connected with the first vertical plate through the bolts, the second vertical plate is driven to move into the middle groove of the steel plates, the hexagonal rotating head is rotated through the wrench, the sleeve is driven to rotate through the hexagonal rotating head, the sleeve can move through the screw rod, so that the sleeve can extrude two adjacent connecting rods through the circular block, the connecting rods extrude the top plate through the first rectangular block and the like, the top plate is matched with the steel plates to support the cross beam, so that the strength of the cross beam can be improved, and meanwhile, the steel plates can be independently disassembled and replaced along with use, so that integral scrapping is avoided, and the use cost is saved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a schematic view of the structure of the connecting rod, top plate and bolts of FIG. 2;

FIG. 4 is a schematic view of the screw, sleeve and second riser of FIG. 2;

Fig. 5 is a partial perspective view of fig. 2.

Reference numerals illustrate: in the figure: 1. the steel plate comprises a beam, 2, anode steel claws, 3, a supporting device, 301, a top plate, 302, a first rectangular block, 303, a connecting rod, 304, a second rectangular block, 4, an adjusting device, 401, a second vertical plate, 402, a screw, 403, a sleeve, 5, a boss, 6, a steel plate, 7, a first vertical plate, 8, a bolt, 9, a round block, 10, a hexagonal rotating head, 11 and a triangular rib.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

Example 1:

Referring to fig. 1-5: in this embodiment, a low resistance energy-conserving positive pole steel claw, including crossbeam 1 and positive pole steel claw 1, the below integrated into one piece of crossbeam 1 is provided with 4 positive pole steel claws 2, the inside processing of rear end of crossbeam 1 has the recess, fixedly connected with boss 5 in the middle of the top of crossbeam 1, the internally mounted of crossbeam 1 has 2 steel sheets 6, the inside processing of steel sheet 6 has 3 recesses, and the outer wall of steel sheet 6 and the recess department inner wall clearance fit of crossbeam 1, can support crossbeam 1 through steel sheet 6, strutting arrangement 3 is installed to the inboard of steel sheet 6, adjusting device 4 is installed to strutting arrangement 3's inboard.

Referring to fig. 1-3, the supporting device 3 comprises a top plate 301, a first rectangular block 302, a connecting rod 303 and a second rectangular block 304, wherein the outer side outer walls of the upper top plate 301 and the lower top plate 301 are attached to the outer walls of the adjacent steel plates 6, the first rectangular block 302 is fixedly connected to the inner side of the top plate 301, the front end face of the first rectangular block 302 is rotationally connected with the connecting rod 303 through a rotating shaft, the other end of the connecting rod 303 is rotationally connected with the second rectangular block 304 through the rotating shaft, the connecting rod 303 can drive the first rectangular block 302 and the like to move through the second rectangular block 304, the outer side of the second rectangular block 304 is in threaded connection with a first vertical plate 7 through bolts 8, the outer wall of the first vertical plate 7 is in clearance fit with the inner wall of an outer groove of the steel plate 6, and the steel plates 6 can be supported through the first vertical plate 7;

Can install two steel sheets 6 in the recess of crossbeam 1, install the recess of two steel sheets 6 with first riser 7 again in, carry out preliminary support to steel sheet 6, afterwards drive roof 301 etc. and remove, and be connected fixedly with first riser 7 with second rectangular piece 304 through bolt 8, rethread circular piece 9 etc. extrude two adjacent connecting rods 303, make connecting rod 303 extrude roof 301 through first rectangular piece 302 etc. so that roof 301 cooperates steel sheet 6 to support crossbeam 1, so alright improve the intensity of crossbeam 1, simultaneously along with the use, steel sheet 6 also can dismantle the change alone, thereby whole scrapping has been avoided, and use cost has been saved.

Referring to fig. 1, 2, 4 and 5, the adjusting device 4 comprises a second riser 401, a screw rod 402 and a sleeve 403, wherein the outer wall of the second riser 401 is in clearance fit with the inner wall of a middle groove of the steel plate 6, the steel plate 6 can be supported through the second riser 401, the screw rod 402 is fixedly connected in the middle of the inside of the second riser 401, the sleeves 403 are in threaded connection with the outer walls of two ends of the screw rod 402, the sleeve 403 can move through the screw rod 402, a round block 9 is fixedly connected on the outer sides of the left sleeve 403 and the right sleeve 403, the outer wall of the round block 9 is attached to the outer wall of the connecting rod 303, the connecting rod 303 can be extruded through the round block 9, and a hexagonal rotating head 10 is fixedly connected on the inner side outer walls of the left sleeve 403 and the right sleeve 403;

The second vertical plate 401 can be driven to move into the middle groove of the steel plate 6, the hexagonal rotating head 10 is rotated through the wrench, the sleeve 403 is driven to rotate through the hexagonal rotating head 10, the sleeve 403 can move through the screw 402, and therefore the sleeve 403 can squeeze the two adjacent connecting rods 303 through the round block 9, and operation is convenient.

When an operator needs to use the low-resistance energy-saving anode steel claw, two steel plates 6 can be installed in the grooves of the cross beam 1, the first vertical plate 7 is installed in the grooves of the two steel plates 6, the steel plates 6 are preliminarily supported, then the top plate 301 and the like are driven to move, the second rectangular block 304 is fixedly connected with the first vertical plate 7 through the bolts 8, the second vertical plate 401 is driven to move into the middle groove of the steel plates 6, the hexagonal rotating head 10 is rotated through a spanner, the sleeve 403 is driven to rotate through the hexagonal rotating head 10, the sleeve 403 can move through the screw 402, and therefore the sleeve 403 can extrude two adjacent connecting rods 303 through the round block 9, the connecting rods 303 extrude the top plate 301 through the first rectangular block 302 and the like, the top plate 301 is matched with the steel plates 6 to support the cross beam 1, so that the strength of the cross beam 1 can be improved, and meanwhile, the steel plates 6 can be independently disassembled and replaced along with use, the whole scrapping is avoided, and the use cost is saved.

Example 2:

Referring to fig. 1 and 2: in the embodiment, a low-resistance energy-saving anode steel claw is provided, and triangular ribs 11 are processed above the front end and the rear end of the anode steel claw 1; triangular ribs 11 are processed above the front end and the rear end of the anode steel claw 1, so that the supporting performance and the strength of the anode steel claw 1 can be further improved through the triangular ribs 11.

The triangular ribs 11 can be processed above the front and rear ends of the anode steel claw 1, so that the supporting performance and strength of the anode steel claw 1 can be further improved through the triangular ribs 11.

When an operator needs to use the low-resistance energy-saving anode steel claw, the triangular ribs 11 are processed above the front end and the rear end of the anode steel claw 1, and thus the supporting performance and the strength of the anode steel claw 1 can be further improved through the triangular ribs 11.

While the utility model has been shown and described with reference to a preferred embodiment, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the utility model.

Claims (6)

1. The utility model provides a low resistance energy-conserving anode steel claw, includes crossbeam (1) and anode steel claw (2), the below integrated into one piece of crossbeam (1) is provided with a plurality of anode steel claws (2), characterized by: fixedly connected with boss (5) in the middle of the top of crossbeam (1), the internally mounted of crossbeam (1) has a plurality of steel sheets (6), and the outer wall of steel sheet (6) and the recess department inner wall clearance fit of crossbeam (1), strutting arrangement (3) are installed to the inboard of steel sheet (6), adjusting device (4) are installed to the inboard of strutting arrangement (3).

2. The low-resistance energy-saving anode steel claw according to claim 1, wherein the low-resistance energy-saving anode steel claw is characterized in that: the supporting device (3) comprises a top plate (301), the outer side outer walls of the top plate (301) are attached to the outer walls of the adjacent steel plates (6), a first rectangular block (302) is fixedly connected to the inner side of the top plate (301), a connecting rod (303) is connected to the front end face of the first rectangular block (302) through rotation of a rotating shaft, and a second rectangular block (304) is connected to the other end of the connecting rod (303) through rotation of the rotating shaft.

3. The low-resistance energy-saving anode steel claw according to claim 2, characterized in that: the outer side of the second rectangular block (304) is connected with a first vertical plate (7) through a bolt (8) in a threaded mode, and the outer wall of the first vertical plate (7) is in clearance fit with the inner wall of the outer groove of the steel plate (6).

4. The low-resistance energy-saving anode steel claw according to claim 1, wherein the low-resistance energy-saving anode steel claw is characterized in that: the adjusting device (4) comprises a second vertical plate (401), the outer wall of the second vertical plate (401) is in clearance fit with the inner wall of the middle groove of the steel plate (6), a screw rod (402) is fixedly connected in the middle of the second vertical plate (401), and two end outer walls of the screw rod (402) are in threaded connection with sleeves (403).

5. The low-resistance energy-saving anode steel claw according to claim 4, wherein the low-resistance energy-saving anode steel claw is characterized in that: the outer sides of the left sleeve (403) and the right sleeve (403) are fixedly connected with round blocks (9), and the outer walls of the round blocks (9) are attached to the outer walls of the connecting rods (303).

6. The low-resistance energy-saving anode steel claw according to claim 4, wherein the low-resistance energy-saving anode steel claw is characterized in that: the inner side and the outer wall of the left sleeve (403) and the right sleeve are fixedly connected with a hexagonal rotating head (10).