CN220977187U - High-conductivity cathode core-spun rod - Google Patents

Abstract

The application discloses a high-conductivity cathode core-spun rod, and relates to the technical field of cathode rods. The application comprises an inner core, wherein the outer part of the inner core is sleeved with a shell, and the application further comprises: a mounting member mounted on the outer shell, the mounting member for supporting the inner core and the outer shell; the connecting piece is arranged between the mounting piece and the shell, the adjusting piece is arranged on the connecting piece and is in contact with the inner core, and the adjusting piece is used for adjusting the distance between the inner core and the connecting piece. When the cathode core-spun rod is used, the cathode core-spun rod is installed through the installation piece to be positioned in electrolyte, and then the distance between the adjustment piece and the inner core is changed through the adjustment piece, so that the depth of the cathode core-spun rod in the electrolyte is changed, and the practicability of the cathode core-spun rod is improved.

Description

High-conductivity cathode core-spun rod

Technical Field

The application relates to the technical field of cathode rods, in particular to a high-conductivity cathode core-spun rod.

Background

Currently, when metal is electrolyzed in the metallurgical industry, a cathode rod is usually adopted, which is also called a cathode core-spun rod, wherein the cathode rod usually comprises a conductive rod and a shell wrapped outside the conductive rod, copper contact points are arranged at two ends of the conductive rod in the form of arc surfaces, and copper contact pieces are arranged at two ends of the shell.

The existing cathode core-spun rod plays a role of conducting electricity through being inserted into electrolyte, but when the cathode core-spun rod is used, the cathode core-spun rod is positioned in the electrolyte through hanging supports of hangers, and when the cathode core-spun rod is used, the depth of the cathode core-spun rod in the electrolyte cannot be adjusted, so that the cathode core-spun rod is inconvenient to install in different depths.

Disclosure of utility model

The application aims at: the application provides a high-conductivity cathode core-spun rod, which aims to solve the problems that the conventional cathode core-spun rod plays a role in conducting electricity through being inserted into electrolyte, but when the cathode core-spun rod is used, the cathode core-spun rod is mostly suspended and supported in the electrolyte through hanging lugs, and when the cathode core-spun rod is used, the depth of the cathode core-spun rod in the electrolyte is not adjustable, so that the cathode core-spun rod is inconvenient to install in different depths.

The application adopts the following technical scheme for realizing the purposes:

the high conductive cathode core-spun rod comprises an inner core, wherein an outer shell is sleeved outside the inner core, and the high conductive cathode core-spun rod further comprises:

a mounting member mounted on the outer shell, the mounting member for supporting the inner core and the outer shell;

The connecting piece is arranged between the mounting piece and the shell, the adjusting piece is arranged on the connecting piece and is in contact with the inner core, and the adjusting piece is used for adjusting the distance between the inner core and the connecting piece.

Further, the adjusting member includes:

a threaded rod in threaded connection with the connector, the end of the threaded rod being in contact with the inner core;

and the air bag is arranged at the bottom of the shell and is used for providing buoyancy for the inner core and the shell.

Further, the connector includes:

The connecting plate is connected with the mounting piece, and the threaded rod is in threaded connection with the connecting plate;

The two outer casings are arranged on two sides of the connecting plate, the mounting plates are slidably arranged on the outer casings, and the mounting plates are connected with the outer casings.

Further, the mounting piece is a hook mounted on the connecting plate, and the hook is used for hanging and supporting the connecting plate.

Further, an annular groove is formed in the peripheral side of the shell, and the end portion of the mounting plate is in sliding fit with the annular groove.

Further, a sliding groove is formed in the connecting plate, a T-shaped block which is in sliding fit with the sliding groove is arranged on the outer sleeve shell, a bidirectional screw rod is rotatably arranged on the connecting plate, and the bidirectional screw rod is in threaded connection with the two outer sleeve shells.

Further, a supporting rod is arranged on the shell, a supporting plate is arranged at the end part of the supporting rod, the air bag is connected with the shell through the supporting plate, and a space is reserved between the supporting plate and the end part of the shell through the supporting rod.

Further, the rubber block is installed to the threaded rod tip, and the threaded rod passes through rubber block and inner core contact.

The beneficial effects of the application are as follows:

When the cathode core-spun rod is used, the cathode core-spun rod is installed through the installation piece to be positioned in electrolyte, and then the distance between the adjustment piece and the inner core is changed through the adjustment piece, so that the depth of the cathode core-spun rod in the electrolyte is changed, and the practicability of the cathode core-spun rod is improved.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is an exploded view of a portion of the structure of the present application;

FIG. 3 is an exploded view of the structure of the connector of the present application;

FIG. 4 is a perspective semi-sectional view of the present application of FIG. 1;

Reference numerals: 1. an inner core; 2. a housing; 3. a mounting member; 301. a hook; 4. a connecting piece; 401. a connecting plate; 402. an outer shell; 403. a mounting plate; 5. an adjusting member; 501. a threaded rod; 502. an air bag; 6. a ring groove; 7. a chute; 8. a T-shaped block; 9. a two-way screw rod; 10. a support rod; 11. a support plate; 12. rubber blocks.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application.

As shown in fig. 1 and fig. 2, a highly conductive cathode core-spun rod according to an embodiment of the present application includes an inner core 1, a shell 2 sleeved outside the inner core 1, and when in use, the inner core 1 and the shell 2 form an existing cathode core-spun rod, and further includes:

the mounting piece 3 is mounted on the shell 2, the mounting piece 3 is used for supporting the inner core 1 and the shell 2, and when the cathode core-spun rod is used, the cathode core-spun rod is mounted in electrolyte through the mounting piece 3, so that the cathode core-spun rod plays a role in electric conduction;

The connecting piece 4 is arranged between the mounting piece 3 and the shell 2, the adjusting piece 5 is arranged on the connecting piece 4, the adjusting piece 5 is in contact with the inner core 1, the adjusting piece 5 is used for adjusting the distance between the inner core 1 and the connecting piece 4, when the cathode core-spun rod is used, the mounting piece 3 is connected with the cathode core-spun rod through the connecting piece 4, the position between the mounting piece 3 and the cathode core-spun rod is changed through the adjusting piece 5, the distance between the cathode core-spun rod and the mounting piece 3 is further changed, and then the position of the cathode core-spun rod in electrolyte is changed;

Compared with the prior art, install mounting 3 and connecting piece 4 on shell 2, when using, install this negative pole core-spun axle through mounting 3, make it be located electrolyte and conduct, rethread regulating part 5 changes the distance between connecting piece 4 and the inner core 1, and then changes the degree of depth of this negative pole core-spun axle in the electrolyte, has increased the practicality of this negative pole core-spun axle.

As shown in fig. 2 and 4, in some embodiments, the adjusting member 5 includes:

The end of the threaded rod 501 is in contact with the inner core 1, and when the cathode core-spun rod is in use, the threaded rod 501 is rotated to enable the end of the threaded rod 501 to be close to the inner core 1 so as to push the inner core 1 to be far away from the connecting piece 4, so that the depth of the cathode core-spun rod in electrolyte is changed, and the practicability of the device is improved;

The air bag 502 installed at the bottom of the shell 2, the air bag 502 is used for providing buoyancy for the inner core 1 and the shell 2, when the threaded rod 501 is far away from the inner core 1 in use, electrolyte is used for providing buoyancy for the air bag 502, the air bag 502 is indirectly used for providing buoyancy for the cathode core-spun rod, the height of the cathode core-spun rod is further increased, and when the air bag is used, compared with the mode that the inner core 1 is directly pulled through the threaded rod 501, the possibility that the threaded rod 501 causes abrasion to the inner core 1 when the cathode core-spun rod is increased is reduced through pushing of buoyancy.

As shown in fig. 3, in some embodiments, the connector 4 comprises:

A connection plate 401 connected with the mounting member 3, a threaded rod 501 is in threaded connection with the connection plate 401, and the mounting member 3 is also mounted on the connection plate 401;

Two outer shells 402 installed on two sides of the connection plate 401, the mounting plates 403 are slidably installed on the outer shells 402, the mounting plates 403 are connected with the outer shell 2, when the device is used, two sides of the connection plate 401 are connected with the outer shell 2 through the mounting plates 403, when the depth of the inner core 1 in electrolyte is changed through the threaded rod 501, the mobility of a cathode core-spun rod is met through the sliding of the mounting plates 403 on the outer shells 402, and the feasibility of the device is improved.

As shown in fig. 4, in some embodiments, the mounting member 3 is a hook 301 mounted on the connection plate 401, where the hook 301 is used for hanging and supporting the connection plate 401, and in use, the hook 301 is hung in the electrolytic cell, so as to hang and support the connection plate 401, and in turn, indirectly hang and support the whole cathode core rod, and in use, the cathode core rod is mounted in a hanging manner, which is convenient in mounting the cathode core rod.

As shown in fig. 2, in some embodiments, the circumferential side of the shell 2 is provided with the annular groove 6, the end of the mounting plate 403 is in sliding fit with the annular groove 6, in use, because the end of the mounting plate 403 is in sliding fit with the annular groove 6, the motion of the shell 2 between the mounting plates 403 is rotating along the axial direction of the shell 2, when the threaded rod 501 contacts the inner core 1, when the threaded rod 501 rotates to push the inner core 1, the threaded rod 501 drives the shell 2 and the inner core 1 to rotate between the mounting plates 403 due to friction, the possibility that the end of the threaded rod 501 rotates on the inner core 1 and collides with the threaded rod is reduced, and further the relative motion between the threaded rod 501 and the inner core 1 is reduced, the abrasion of the threaded rod 501 to the inner core 1 when pushing the inner core 1 is reduced, and the service life of the cathode core-covering rod is prolonged.

As shown in fig. 3, in some embodiments, a sliding groove 7 is formed on a connection plate 401, a T-shaped block 8 in sliding fit with the sliding groove 7 is installed on an outer sleeve shell 402, a bidirectional screw rod 9 is rotatably installed on the connection plate 401, the bidirectional screw rod 9 is in threaded connection with two outer sleeve shells 402, when in use, the bidirectional screw rod 9 is rotated, so that the two T-shaped blocks 8 are synchronously close to or far away from each other in the sliding groove 7, further, the two outer sleeve shells 402 drive a mounting plate 403 to be close to or far away from each other, when the mounting plates 403 are far away from each other to be disconnected from an annular groove 6, a connecting piece 4 is disconnected from the outer sleeve shell 2, and when the mounting plate 403 is slid to the end part of the mounting plate is inserted into the annular groove 6, the connecting piece 4 is connected with the annular groove 6, the connecting piece 4 is detachable from the outer sleeve shell 2, so that parts on the connection plate 401 are conveniently replaced, and the practicability of the device is improved.

As shown in fig. 1 and 2, in some embodiments, a support rod 10 is installed on the shell 2, a support plate 11 is installed at the end of the support rod 10, the air bag 502 is connected with the shell 2 through the support plate 11, the support rod 10 enables a space between the support plate 11 and the end of the shell 2, and when in use, a gap is formed between the air bag 502 and the inner core 1 through the cooperation of the support plate 11 and the support rod 10, so that the inner core 1 can be in contact with electrolyte while the air bag 502 can provide buoyancy for the cathode core-spun rod, the conductive effect of the cathode core-spun rod is improved, and the practicability of the device is improved.

As shown in fig. 3, in some embodiments, the end of the threaded rod 501 is provided with a rubber block 12, the threaded rod 501 contacts with the inner core 1 through the rubber block 12, and when the threaded rod 501 collides with the inner core 1, the loss caused to the inner core 1 when the threaded rod 501 pushes the inner core 1 is reduced through the flexible contact of the rubber block 12, so that the service life of the device is prolonged.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The utility model provides a high conductive cathode core-spun rod, includes inner core (1), the outside cover of inner core (1) is equipped with shell (2), its characterized in that still includes:

A mounting member (3) mounted on the outer shell (2), the mounting member (3) being for supporting the inner core (1) and the outer shell (2);

Install installed piece (3) with connecting piece (4) between shell (2), install on connecting piece (4) regulating part (5), regulating part (5) with inner core (1) contact, regulating part (5) are used for adjusting inner core (1) with distance between connecting piece (4).

2. The highly conductive cathode cored bar of claim 1, characterized in that the adjusting member (5) comprises:

a threaded rod (501) in threaded connection with the connecting piece (4), the end of the threaded rod (501) being in contact with the inner core (1);

An air bag (502) mounted at the bottom of the outer shell (2), the air bag (502) being used for providing buoyancy to the inner core (1) and the outer shell (2).

3. The highly conductive cathode cored bar of claim 2, characterized in that the connector (4) comprises:

A connection plate (401) connected with the mounting piece (3), wherein the threaded rod (501) is in threaded connection with the connection plate (401);

And two outer shells (402) arranged on two sides of the connecting plate (401), wherein mounting plates (403) are slidably arranged on the outer shells (402), and the mounting plates (403) are connected with the shell (2).

4. A highly conductive cathode core rod according to claim 3, characterized in that the mounting (3) is a hook (301) mounted on the web (401), the hook (301) being used for suspension support of the web (401).

5. The high-conductivity cathode core-spun rod according to claim 4, wherein a ring groove (6) is formed on the peripheral side of the outer shell (2), and the end of the mounting plate (403) is in sliding fit with the ring groove (6).

6. The high-conductivity cathode core-spun rod according to claim 5, wherein a chute (7) is formed in the connecting plate (401), a T-shaped block (8) which is in sliding fit with the chute (7) is mounted on the outer casing (402), a bidirectional screw rod (9) is rotatably mounted on the connecting plate (401), and the bidirectional screw rod (9) is in threaded connection with the two outer casings (402).

7. The high-conductivity cathode core-spun rod according to claim 2, characterized in that a support rod (10) is mounted on the housing (2), a support plate (11) is mounted at the end of the support rod (10), the air bag (502) is connected with the housing (2) through the support plate (11), and the support rod (10) enables a space to be formed between the support plate (11) and the end of the housing (2).

8. The high-conductivity cathode core-in-tube according to claim 2, wherein the end of the threaded rod (501) is provided with a rubber block (12), and the threaded rod (501) is in contact with the inner core (1) through the rubber block (12).