CN216688349U - Cooling device of manganese electrolytic cell - Google Patents

Abstract

The utility model discloses a cooling device of a manganese electrolytic cell, which comprises a cooling device main body and the manganese electrolytic cell, wherein an installation box is arranged on the cooling device main body, the lower end of the installation box is uniformly connected with supporting legs, the installation box is clamped at the lower end of the manganese electrolytic cell, supporting blocks are arranged at the corners of the installation box and the manganese electrolytic cell, through holes are formed in each surface of the installation box, a pipeline fixing block is uniformly sleeved on a cooling water pipe and is connected with the installation plate, and heat dissipation plates are arranged on the side surface and the bottom of the manganese electrolytic cell. This cooling device of manganese electrolysis trough passes through the install bin fixedly, and condenser tube on each face of install bin is the independent structure, can independently take away the heat of electrolysis trough through the flow of water, can effectively avoid a condenser tube to go wrong and influence the cooling treatment of manganese electrolysis trough simultaneously, and cooling device overhauls the convenience simultaneously, and the processing of easily low-grade ore is drawed out.

Description

Cooling device of manganese electrolytic cell

Technical Field

The utility model relates to the technical field of cooling devices, in particular to a cooling device of a manganese electrolytic cell.

Background

The electrolytic cell consists of a cell body, an anode and a cathode, and most of the cells are separated from the anode chamber and the cathode chamber by a diaphragm. The electrolytic bath is divided into an aqueous solution electrolytic bath, a molten salt electrolytic bath and a non-aqueous solution electrolytic bath according to different electrolyte solutions. When direct current passes through the electrolytic cell, an oxidation reaction occurs at the interface between the anode and the solution, and a reduction reaction occurs at the interface between the cathode and the solution, so as to prepare the desired product. The ores mined from mines are mostly low-grade ores containing a large amount of gangue except for a few rich ores rich in useful minerals, and when manganese is extracted from the low-grade ores, an electrolytic cell is used.

The existing manganese electrolytic cell is generally cooled by a water-cooling mode, a cooling water pipe is a stainless steel pipe, but the cooling water pipe of the cooling device is generally integrally paved, so that the maintenance and the treatment can not be conveniently carried out, and once the cooling water pipe is damaged, the cooling use can be influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cooling device for a manganese electrolytic cell, which aims to solve the problems that the cooling water pipe of the cooling device for the manganese electrolytic cell in the prior market is generally integrally paved, the maintenance and the repair can not be conveniently carried out, and the cooling use is influenced once the cooling water pipe is damaged.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a cooling device of manganese electrolysis trough, includes cooling device main part and manganese electrolysis trough, be equipped with the install bin in the cooling device main part, and the install bin lower extreme evenly is connected with the supporting leg, the install bin block in manganese electrolysis trough lower extreme, and the edge of install bin and manganese electrolysis trough all is equipped with the supporting shoe, the through-hole has all been seted up to the install bin face, and all blocks in the through-hole of install bin there is the mounting panel, the handle is installed to one of them side symmetry of mounting panel, and the mounting panel opposite side is equipped with condenser tube, the last even cover of condenser tube is equipped with the pipeline fixed block, and the pipeline fixed block is connected with the mounting panel, manganese electrolysis trough side and bottom all are equipped with the heating panel, and evenly are equipped with radiating fin and positioning seat on the heating panel.

Preferably, one side of the mounting plate, which is close to the cooling water pipe, is provided with a groove, and the insulation board is clamped in the groove of the mounting plate.

Preferably, the mounting plate is in contact with the supporting block, and the mounting plate and the supporting block are fixed through bolts.

Preferably, the cooling water pipe is of a coil pipe structure, and the cooling water pipe and the radiating fins are arranged at intervals.

Preferably, one side of the positioning seat, which is far away from the manganese electrolytic cell, is provided with an arc-shaped groove, and the groove of the positioning seat is connected with the cooling water pipe in a clamping manner.

Compared with the prior art, the utility model has the beneficial effects that: this cooling device of manganese electrolysis trough passes through the install bin fixedly, and condenser tube on each face of install bin is the independent structure, can independently take away the heat of electrolysis trough through the flow of water, can effectively avoid a condenser tube to go wrong and influence the cooling treatment of manganese electrolysis trough simultaneously, and cooling device overhauls the convenience simultaneously, and the processing of easily low-grade ore is drawed out. This cooling device for manganese electrolysis trough's condenser tube passes through the pipeline fixed block to be fixed on the mounting panel, and the mounting panel carries out heat preservation to condenser tube through the heated board and handles, and the heat is taken away through the flow of water to the condenser tube, carries out the heat exchange and handles, makes the water heating, and the heated board can prevent effectively that the temperature from reducing, improves heat exchange efficiency.

Drawings

FIG. 1 is a schematic view of the structure of a cooling apparatus for a manganese electrolytic cell of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 of a cooling apparatus for a manganese electrolytic cell according to the present invention;

FIG. 3 is a schematic view of a connecting structure of a mounting plate and a mounting box of a cooling device of a manganese electrolytic cell of the present invention.

In the figure: 1. a cooling device main body; 2. mounting a plate; 3. a cooling water pipe; 4. a heat dissipating fin; 5. a support block; 6. a thermal insulation board; 7. installing a box; 8. a handle; 9. a heat dissipation plate; 10. a manganese electrolytic cell; 11. supporting legs; 12. a pipeline fixing block; 13. a positioning seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a cooling device of a manganese electrolytic cell comprises a cooling device main body 1 and a manganese electrolytic cell 10, wherein the cooling device main body 1 is provided with an installation box 7, the lower end of the installation box 7 is uniformly connected with supporting legs 11, the installation box 7 is clamped at the lower end of the manganese electrolytic cell 10, supporting blocks 5 are arranged at corners of the installation box 7 and the manganese electrolytic cell 10, through holes are formed in each surface of the installation box 7, an installation plate 2 is clamped in each through hole of the installation box 7, the installation plate 2 is in contact with the supporting blocks 5, the installation plate 2 and the supporting blocks 5 are fixed through bolts, the structure can enable the installation plate 2 to be fixed relative to the installation box 7 under the action of the supporting blocks 5, the supporting blocks 5 can enable the installation plate 2 and the manganese electrolytic cell 10 to have a certain distance, the supporting blocks 5 can also play a role in connecting the installation box 7 and the manganese electrolytic cell 10, and enable the cooling device main body 1 to be installed on the manganese electrolytic cell 10 through the installation box 7, the handle 8 is symmetrically installed on one side of the mounting plate 2, the cooling water pipe 3 is arranged on the other side of the mounting plate 2, a groove is formed in one side, close to the cooling water pipe 3, of the mounting plate 2, the heat insulation plate 6 is clamped in the groove of the mounting plate 2, the heat insulation plate 6 of the structure is of an existing heat insulation plate structure and can play a role in heat insulation on the cooling water pipe 3 so as to prevent the cooling water pipe 3 from being rapidly cooled after heat exchange and improve heat exchange efficiency, and therefore the utilization rate of heat energy is improved, the cooling water pipe 3 is evenly sleeved with the pipeline fixing block 12, the pipeline fixing block 12 is connected with the mounting plate 2, the cooling water pipe 3 is of a coil pipe structure, the cooling water pipe 3 and the heat dissipation fins 4 are arranged at intervals, the cooling water pipe 3 of the structure is of an existing cooling pipe structure, the water inlet and the water outlet are respectively formed in two ends of the cooling water pipe 3, water circulation treatment can be carried out, and heat exchange treatment is carried out on the water generated with the manganese electrolytic tank 10 in the flowing process, realize manganese electrolysis trough 10's cooling, reduce the loss of heat energy simultaneously, the water that heats in condenser tube 3 can supply the daily use of mill, condenser tube 3 sets up with 4 intervals of radiating fin, can make condenser tube 3 absorb the heat through radiating fin 4, manganese electrolysis trough 10 side and bottom all are equipped with heating panel 9, and evenly be equipped with radiating fin 4 and positioning seat 13 on the heating panel 9, the arc recess has been seted up to one side that manganese electrolysis trough 10 was kept away from to positioning seat 13, and the recess of positioning seat 13 is connected with 3 blocks of condenser tube, this structure can make condenser tube 3 install the location through positioning seat 13 and handle, let condenser tube 3 stabilize between mounting panel 2 and heating panel 9.

The working principle is as follows: when the cooling device of the manganese electrolytic tank is used, firstly, the manganese electrolytic tank 10 generates heat when extracting manganese, the cooling device body 1 carries out cooling treatment on the manganese electrolytic tank 10, the heat in the manganese electrolytic tank 10 is conducted into the installation box 7 through the heat dissipation plate 9, the support block 5 plays a role in connecting the installation box 7 with the manganese electrolytic tank 10, then the heat is conducted into the cooling water pipe 3 under the action of the heat dissipation fins 4 and the positioning seat 13, the water in the cooling water pipe 3 takes away the heat in the flowing process, the water in the cooling water pipe 3 is heated, heat exchange treatment is realized, the pipeline fixing block 12 plays a role in connecting and fixing the cooling water pipe 3 and the mounting plate 2, when the cooling water pipe 3 is damaged, the mounting plate 2 can be timely detached to facilitate maintenance treatment on the cooling water pipe 3, and when the mounting plate 2 is detached, can take off mounting panel 2 through handle 8 is convenient, fix 3 mutual noninterferences of condenser tube on mounting panel 2, in case damage appears in one of them condenser tube 3, can not influence the cooling treatment of manganese electrolysis trough 10, heated board 6 plays heat retaining effect to condenser tube 3, reduce the heat loss of 3 internal waters of condenser tube, improve thermal recycling and handle, supporting leg 11 plays firm bottom sprag effect to cooling device main part 1, thereby accomplish a series of works.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (5)

1. A cooling device of a manganese electrolytic cell, comprising a cooling device body (1) and a manganese electrolytic cell (10), characterized in that: the cooling device main body (1) is provided with an installation box (7), the lower end of the installation box (7) is uniformly connected with supporting legs (11), the installation box (7) is clamped at the lower end of the manganese electrolytic tank (10), supporting blocks (5) are arranged at the corners of the mounting box (7) and the manganese electrolytic tank (10), through holes are arranged on each surface of the mounting box (7), the mounting plates (2) are clamped in the through holes of the mounting box (7), handles (8) are symmetrically mounted on one side of each mounting plate (2), and the other side of the mounting plate (2) is provided with a cooling water pipe (3), the cooling water pipe (3) is uniformly sleeved with a pipeline fixing block (12), and the pipeline fixing block (12) is connected with the mounting plate (2), the side surface and the bottom of the manganese electrolytic tank (10) are provided with heat dissipation plates (9), and the heat dissipation plate (9) is uniformly provided with heat dissipation fins (4) and a positioning seat (13).

2. A cooling device for a manganese electrolytic cell according to claim 1, characterized in that: one side of the mounting plate (2) close to the cooling water pipe (3) is provided with a groove, and the heat insulation plate (6) is clamped in the groove of the mounting plate (2).

3. A cooling device for a manganese electrolytic cell according to claim 1, characterized in that: the mounting plate (2) is in contact with the supporting block (5), and the mounting plate (2) is fixed with the supporting block (5) through bolts.

4. A cooling device for a manganese electrolytic cell according to claim 1, characterized in that: the cooling water pipe (3) is of a coil pipe structure, and the cooling water pipe (3) and the radiating fins (4) are arranged at intervals.

5. A cooling device for a manganese electrolytic cell according to claim 1, characterized in that: an arc-shaped groove is formed in one side, away from the manganese electrolytic tank (10), of the positioning seat (13), and the groove of the positioning seat (13) is connected with the cooling water pipe (3) in a clamping mode.

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