CN209957910U - Cathode conductive titanium steel plate for electrolytic bath - Google Patents

Abstract

The utility model discloses a cathode conductive titanium steel plate for an electrolytic bath, relating to the technical field of electrolytic baths. The utility model discloses a steel sheet body, steel sheet mounting and electrically conductive piece, steel sheet body top surface are fixed with the current conducting plate, and a current conducting plate fixed surface has the insulation board, and the steel sheet mounting includes a set of curb plate, and first rectangular channel has been seted up on a curb plate surface, and the second rectangular channel has been seted up to a first rectangular channel inner wall. The utility model discloses a divide into two curb plates with the steel sheet mounting, use the cooperation through first through-hole, second through-hole, accomodate hole and ring channel simultaneously and be convenient for accomodate fixed electrically conductive, the steel sheet body can be accomodate inside the conducting ring, current conducting plate contact conducting ring on the steel sheet body this moment can be used to electrically conduct, steel sheet body both sides and conducting ring inner wall contact simultaneously, be convenient for transmit electricity to the steel sheet body through electrically conductive this moment, solved current electrically conductive titanium steel sheet be not convenient for install demolish with the not enough problem of stability.

Description

Cathode conductive titanium steel plate for electrolytic bath

Technical Field

The utility model belongs to the technical field of the electrolysis trough, especially relate to the electrically conductive titanium steel sheet of negative pole for the electrolysis trough.

Background

Can a plurality of cathode steel plates of array installation in the current electrolysis trough, however the direct weld is fixed on the current conducting plate when the installation now, can cause the condition that the installation of not being convenient for was demolishd like this, and the stationary force is not enough simultaneously, causes the condition that polar plate and conducting rod skew easily, is not convenient for adjust the distance between the cathode steel plate and the quantity of cathode steel plate simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electrolysis trough is with electrically conductive titanium steel sheet of negative pole, through being divided into two curb plates with the steel sheet mounting, simultaneously through first through-hole, the second through-hole, accomodate the cooperation use of hole and ring channel and be convenient for accomodate fixed electrically conductive, the steel sheet body can be accomodate inside the conducting ring, current conducting plate contact conducting ring on the steel sheet body this moment can be used to electrically conduct, steel sheet body both sides and conducting ring inner wall contact simultaneously, be convenient for transmit electricity to the steel sheet body through electrically conductive this moment, the problem that current electrically conductive titanium steel sheet is not convenient for install demolish and stability is.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a cathode conductive titanium steel plate for an electrolytic bath, which comprises a steel plate body, a steel plate fixing part and a conductive piece;

a conductive plate is fixed on the top surface of the steel plate body, and an insulating plate is fixed on one surface of the conductive plate;

the steel plate fixing piece comprises a group of side plates, wherein a first rectangular groove is formed in one surface of each side plate, a second rectangular groove is formed in one inner wall of each first rectangular groove, an accommodating groove is formed in the other inner wall of each first rectangular groove, and an arc-shaped groove is formed in one inner wall of each accommodating groove;

the two side plates are fixedly connected through bolts, first rectangular grooves in the two side plates form first through holes, the insulating plate is in clearance fit with the first through holes, second rectangular grooves form second through holes, accommodating grooves in the two side plates form accommodating holes, and arc-shaped grooves in the two side plates form annular grooves;

the conductive piece comprises a conductive ring, the conductive ring is in clearance fit with the second through hole, a transverse plate is fixed on each of the opposite sides of the conductive ring, the transverse plates are in clearance fit with the accommodating holes, a conductive rod is fixed on one surface of each transverse plate, and the outer diameter of each conductive rod is the same as the inner diameter of each annular groove.

Further, it is a plurality of the steel sheet body passes through main mounting and electrolysis trough fixed connection, main mounting includes the shell body, a plurality of through holes have been seted up side by side to shell body a surface, be fixed with the polar plate in the shell body, a polar plate fixed surface has the connector lug, connector lug one end runs through the shell body and is located the shell body outside.

Further, the inner diameter of the through hole is the same as the outer diameter of the conducting rod, and the depth of the through hole is the same as the length of the conducting rod.

Furthermore, the thickness of the insulating edge is the same as that of the steel plate body, the insulating edge is fixed at the edge of the steel plate body, and the insulating edge is of a U-shaped structure.

Furthermore, the thickness of the insulating edge is the same as the width of the inner cavity of the conducting ring, and the length of the insulating edge is the same as the length of the inner cavity of the conducting ring.

Furthermore, a handle is fixed on one surface of the insulating plate, and the handle is of a U-shaped handle structure.

The utility model discloses following beneficial effect has:

the utility model discloses a divide into two curb plates with the steel sheet mounting, use through first through-hole, the second through-hole simultaneously, accomodate the cooperation of hole and ring channel and be convenient for accomodate fixed electrically conductive, the steel sheet body can be accomodate inside the conducting ring, current conducting plate contact conducting ring on the steel sheet body this moment can be used to electrically conduct, steel sheet body both sides and conducting ring inner wall contact simultaneously, be convenient for transmit electricity to the steel sheet body through electrically conductive this moment, the installation and the demolition of the steel sheet body of being convenient for have improved the stability and the electric conductive property of steel sheet body simultaneously.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a cathode conductive titanium steel plate for an electrolytic cell according to the present invention;

FIG. 2 is a schematic structural view of a steel plate body;

FIG. 3 is a schematic structural view of a side plate;

FIG. 4 is a schematic structural view of a steel plate fastener;

FIG. 5 is a schematic structural diagram of a conductive device;

FIG. 6 is a schematic structural view of the primary anchor;

FIG. 7 is a structural cross-sectional view of the primary anchor;

FIG. 8 is a sectional view of the steel plate body after being mounted on the main fixture;

in the drawings, the components represented by the respective reference numerals are listed below:

1-steel plate body, 2-steel plate fixing piece, 3-conducting piece, 4-main fixing piece, 101-conducting plate, 102-insulating plate, 103-insulating edge, 104-handle, 201-side plate, 202-first rectangular groove, 203-second rectangular groove, 204-accommodating groove, 205-arc groove, 206-first through hole, 207-second through hole, 208-accommodating hole, 209-annular groove, 301-conducting ring, 302-transverse plate, 303-conducting rod, 401-outer shell, 402-through hole, 403-polar plate and 404-connector lug.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-5, the cathode conductive titanium steel plate for an electrolytic cell of the present invention comprises a steel plate body 1, a steel plate fixing member 2 and a conductive member 3;

a conductive plate 101 is fixed on the top surface of the steel plate body 1, and an insulating plate 102 is fixed on one surface of the conductive plate 101;

the steel plate fixing piece 2 comprises a group of side plates 201, wherein a first rectangular groove 202 is formed in one surface of each side plate 201, a second rectangular groove 203 is formed in one inner wall of each first rectangular groove 202, an accommodating groove 204 is formed in the other inner wall of each first rectangular groove 202, and an arc-shaped groove 205 is formed in one inner wall of each accommodating groove 204;

the two side plates 201 are fixedly connected through bolts, first rectangular grooves 202 on the two side plates 201 form a first through hole 206, the insulating plate 102 is in clearance fit with the first through hole 206, second rectangular grooves 203 form a second through hole 207, accommodating grooves 204 on the two side plates 201 form an accommodating hole 208, and arc-shaped grooves 205 on the two side plates 201 form an annular groove 209;

the conductive member 3 includes a conductive ring 301, the conductive ring 301 is in clearance fit with the second through hole 207, a horizontal plate 302 is fixed on each of opposite sides of the conductive ring 301, the horizontal plate 302 is in clearance fit with the receiving hole 208, a conductive rod 303 is fixed on one surface of the horizontal plate 302, and the outer diameter of the conductive rod 303 is the same as the inner diameter of the annular groove 209.

As shown in fig. 6-8, the steel plate bodies 1 are fixedly connected to the electrolytic cell through the main fixing member 4, the main fixing member 4 includes a housing 401, a plurality of through holes 402 are formed in a surface of the housing 401 side by side, a pole plate 403 is fixed in the housing 401, a connector 404 is fixed on a surface of the pole plate 403, and one end of the connector 404 penetrates through the housing 401 and is located outside the housing 401.

The inner diameter of the through hole 402 is the same as the outer diameter of the conductive rod 303, and the depth of the through hole 402 is the same as the length of the conductive rod 303.

As shown in fig. 2, an insulating edge 103 is fixed at the edge of the steel plate body 1, and the insulating edge 103 is a U-shaped structure.

The thickness of the insulating edge 103 is the same as that of the steel plate body 1, the thickness of the insulating edge 103 is the same as the width of the inner cavity of the conductive ring 301, and the length of the insulating edge 103 is the same as that of the inner cavity of the conductive ring 301.

As shown in fig. 2, a handle 104 is fixed on one surface of the insulating plate 102, and the handle 104 is a U-shaped handle structure.

One specific application of this embodiment is: during installation, the conducting ring 301 is inserted into the second rectangular groove 203 of the side plate 201, the transverse plate 302 is inserted into the accommodating groove 204 at the moment, the conducting rod 303 is inserted into the arc-shaped groove 205, the other side plate 201 is fixed with the previous side plate 201 through a bolt, the conducting ring 301 is accommodated into the second through hole 207 at the moment, the transverse plate 302 is accommodated into the accommodating hole 208, the conducting rod 303 is accommodated into the annular groove 209, the conducting piece 3 can be accommodated into the steel plate fixing piece 2, the steel plate body 1 is inserted into the conducting ring 301 at the moment, the conducting plate 101 is accommodated into the first through hole 206 and attached to the top of the conducting ring 301, and meanwhile, the outer side surface of the steel plate body 1 is in contact with the inner wall of the conducting ring 301, so that conduction.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The cathode conductive titanium steel plate for the electrolytic cell comprises a steel plate body (1) and is characterized in that: the steel plate fixing piece is characterized by also comprising a steel plate fixing piece (2) and a conductive piece (3);

a conductive plate (101) is fixed on the top surface of the steel plate body (1), and an insulating plate (102) is fixed on one surface of the conductive plate (101);

the steel plate fixing piece (2) comprises a group of side plates (201), wherein a first rectangular groove (202) is formed in one surface of each side plate (201), a second rectangular groove (203) is formed in one inner wall of each first rectangular groove (202), a containing groove (204) is formed in the other inner wall of each first rectangular groove (202), and an arc-shaped groove (205) is formed in one inner wall of each containing groove (204);

the two side plates (201) are fixedly connected through bolts, first rectangular grooves (202) on the two side plates (201) form first through holes (206), the insulating plate (102) is in clearance fit with the first through holes (206), second rectangular grooves (203) form second through holes (207), accommodating grooves (204) on the two side plates (201) form accommodating holes (208), and arc-shaped grooves (205) on the two side plates (201) form annular grooves (209);

the conductive piece (3) comprises a conductive ring (301), the conductive ring (301) is in clearance fit with the second through hole (207), a transverse plate (302) is fixed on one opposite side of the conductive ring (301), the transverse plate (302) is in clearance fit with the accommodating hole (208), a conductive rod (303) is fixed on one surface of the transverse plate (302), and the outer diameter of the conductive rod (303) is the same as the inner diameter of the annular groove (209).

2. The cathode conductive titanium steel plate for the electrolytic cell according to claim 1, wherein a plurality of the steel plate bodies (1) are fixedly connected with the electrolytic cell through a main fixing member (4), the main fixing member (4) comprises an outer shell (401), a plurality of through holes (402) are formed in one surface of the outer shell (401) side by side, a pole plate (403) is fixed in the outer shell (401), a connector lug (404) is fixed on one surface of the pole plate (403), and one end of the connector lug (404) penetrates through the outer shell (401) and is located outside the outer shell (401).

3. The cathodic conductive titanium steel plate for electrolytic cells according to claim 2, wherein the inner diameter of the through-hole (402) is the same as the outer diameter of the conductive rod (303), and the depth of the through-hole (402) is the same as the length of the conductive rod (303).

4. The cathode conductive titanium steel plate for the electrolytic cell according to claim 1, wherein an insulating edge (103) is fixed at the edge of the steel plate body (1), and the insulating edge (103) has a U-shaped structure.

5. The cathodic conductive titanium steel plate for electrolytic cells according to claim 4, characterized in that the thickness of the insulating edge (103) is the same as the thickness of the steel plate body (1), the thickness of the insulating edge (103) is the same as the width of the inner cavity of the conductive ring (301), and the length of the insulating edge (103) is the same as the length of the inner cavity of the conductive ring (301).

6. The cathode conductive titanium steel plate for electrolytic cell according to claim 1, wherein a handle (104) is fixed to one surface of the insulating plate (102), and the handle (104) has a U-shaped handle structure.

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