CN219409940U - Cooling device for electrolytic tank - Google Patents

Abstract

The utility model discloses a cooling device for an electrolytic cell, and relates to the technical field of electrolytic cells. This cooling device for electrolysis trough, including bottom plate and cooling module, the top fixed mounting of bottom plate has electrolysis trough and cooling tank, and the cooling tank is located the right side of electrolysis trough, and cooling module, it is located on the bottom plate, cooling module includes cooling coil, and cooling coil twines in the outer wall of electrolysis trough and is used for cooling down the electrolysis trough. This cooling device for electrolysis trough can carry out the circulating flow with cooling coil inside coolant liquid through the circulating pump, can improve the cooling effect to the electrolysis trough like this, avoids cooling coil to generate heat the condition that influences the cooling effect, and when the inside heat of electrolysis trough is comparatively serious, can be through adding the ice-cube to the inside of placing the case, and then at cooling coil endless in-process, be difficult to cool off cooling coil through placing the case, reduce cooling coil's temperature, and then improve the cooling effect to the electrolysis trough.

Description

Cooling device for electrolytic tank

Technical Field

The utility model relates to the technical field of electrolytic tanks, in particular to a cooling device for an electrolytic tank.

Background

An electrolytic tank structure with the publication number of CN205856631U, wherein an anode is arranged above a cathode, so that the replacement of the anode is facilitated, and the interval between the cathode and the anode is conveniently adjusted; the anode block forms an exhaust channel right above the cathode, so that gas generated by anode reaction is discharged in the electrolysis process, the anode block has an exhaust function, and the exhaust channel is formed by combining at least the anode blocks, so that demolding is facilitated when a mold is used for forming the anode; meanwhile, at least 1 blanking point is arranged on the cathode, so that metal oxide can be conveniently and rapidly dissolved into electrolyte, the cathode penetrates out of the side wall of the tank body, electricity is discharged from two ends, the operation is convenient, functionally, the anode is arranged above the cathode, heat dissipation is reduced, energy consumption is low, the anode and the cathode form a semi-enclosed structure, energy consumption is reduced, and the energy utilization rate is improved.

The structure of the electrolytic tank can reduce the energy consumption of production when in use, but is difficult to rapidly cool the electrolytic tank when in use, and further can cause the heat generation phenomenon of the electrolytic tank to influence the normal use of the electrolytic tank.

Disclosure of Invention

The utility model aims to provide a cooling device for an electrolytic cell, which can solve the problems that the electrolytic cell is difficult to be rapidly cooled, and further the heat generation phenomenon of the electrolytic cell is caused, so that the normal use of the electrolytic cell is influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the cooling device for the electrolytic tank comprises a bottom plate and a cooling assembly, wherein the top of the bottom plate is fixedly provided with the electrolytic tank and a cooling box, and the cooling box is positioned on the right side of the electrolytic tank;

and the cooling assembly is arranged on the bottom plate and comprises a cooling coil, and the cooling coil is wound on the outer wall of the electrolytic tank and used for cooling the electrolytic tank.

Preferably, the cooling assembly further comprises a circulating pump, an output pipe, a mounting cross rod, a sliding sleeve, a fixed rod, a mounting table, a placing box, a connecting plate, a connecting column, a baffle, a fixed cross rod, springs and sliding plates, wherein the circulating pump is fixedly arranged at the top of the bottom plate, the output pipe is fixedly arranged at the output end of the circulating pump, one end of the output pipe is fixedly connected with one end of the cooling coil, the other end of the cooling coil extends to the inside of the cooling box, two groups of mounting cross rods are fixedly arranged at the inner walls of two sides of the cooling box, the sliding sleeve is slidably arranged on the outer walls of the two groups of mounting cross rods, the fixed rod is fixedly arranged at the top of the sliding sleeve, the mounting table is fixedly arranged at the top of the fixed rod, the placing box is fixedly arranged at one side of the placing box, the connecting plate is fixedly arranged at one side of the connecting plate, the baffle is fixedly arranged at one end of the connecting column, the fixing cross rod is fixedly arranged at the inner walls of two sides of the cooling box, the sliding sleeve is fixedly arranged at the bottom of the sliding plate, the sliding plates are respectively two groups of the sliding plates, the sliding sleeve is slidably arranged with the sliding sleeve, the two groups of the sliding sleeve are fixedly arranged at the inner walls of the two groups of the cooling box, the adjacent side walls are fixedly arranged at the spring, the input end, one end of the input pipe is fixedly arranged at the bottom of the cooling box and the cooling box is fixedly arranged at the end, the end of the cooling box and the inner end of the cooling box is fixedly arranged at one end of the cooling box.

Preferably, the fixed cross bar is located inside the spring and the outer wall of the fixed cross bar is not in contact with the inner wall of the spring.

Preferably, an opening through which the mounting table and the placement box can move is formed in one side of the cooling box.

Preferably, the inside of mount table has seted up the spout, and the quantity of dead lever is two sets of, and the top fixed mounting of one set of dead lever has the slider, and slider slidable mounting is in the spout, and one set of dead lever is slidable mounting with the mount table.

Preferably, an inclined plate is fixedly arranged on the inner wall of one side of the cooling box, and one side of the inclined plate is fixedly arranged at the bottom of the inner side of the cooling box.

Compared with the prior art, the utility model has the beneficial effects that: this cooling device for electrolysis trough uses through circulating pump, output tube, cooling coil, installation horizontal pole, slip sleeve, dead lever, mount table and the cooperation of placing the case, can carry out the flow that circulates cooling coil inside coolant liquid through the circulating pump on the one hand, can improve the cooling effect to the electrolysis trough like this, avoid cooling coil to generate heat the condition that influences the cooling effect, on the other hand when the electrolysis trough power is higher, and inside heating can be comparatively serious, can be through adding the ice-cube to the inside of placing the case like this, and then at cooling coil endless in-process, be difficult to cool off cooling coil through placing the case, reduce cooling coil's temperature, and then improve the cooling effect to the electrolysis trough.

Drawings

FIG. 1 is a cross-sectional view of the present utility model;

FIG. 2 is a front view of the present utility model;

fig. 3 is an enlarged view of the portion a of the present utility model.

In the figure: 1. a bottom plate; 2. an electrolytic cell; 3. a cooling box; 4. a cooling assembly; 401. a circulation pump; 402. an output pipe; 403. a cooling coil; 404. mounting a cross bar; 405. sliding the sleeve; 406. a fixed rod; 407. a mounting table; 408. placing a box; 409. a connecting plate; 410. a connecting column; 411. a baffle; 412. fixing the cross bar; 413. a spring; 414. and a sliding plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides a cooling device for electrolysis trough, includes bottom plate 1 and cooling module 4, and the top fixed mounting of bottom plate 1 has electrolysis trough 2 and cooling tank 3, and cooling tank 3 is located the right side of electrolysis trough 2, and cooling module 4, it is located on bottom plate 1, and cooling module 4 includes cooling coil 403, and cooling coil 403 twines in the outer wall of electrolysis trough 2 and is used for cooling down electrolysis trough 2.

Further, the cooling assembly 4 further comprises a circulating pump 401, an output pipe 402, a mounting cross bar 404, a sliding sleeve 405, a fixed rod 406, a mounting table 407, a placing box 408, a connecting plate 409, a connecting column 410, a baffle 411, a fixed cross bar 412, a spring 413 and a sliding plate 414, wherein the circulating pump 401 is fixedly arranged at the top of the bottom plate 1, the output end of the circulating pump 401 is fixedly provided with the output pipe 402, one end of the output pipe 402 is fixedly connected with one end of the cooling coil 403, the other end of the cooling coil 403 extends to the inside of the cooling box 3, two groups of mounting cross bars 404 are fixedly arranged on the inner walls of the two sides of the cooling box 3, the sliding sleeve 405 is slidably arranged on the outer walls of the two groups of the mounting cross bars 404, the fixed rod 406 is fixedly arranged at the top of the sliding sleeve 405, the mounting table 407 is fixedly arranged at the top of the fixed rod 406, the placing box 408 is fixedly arranged at the top of the mounting table 407, a connecting plate 409 is fixedly arranged on one side of the placement box 408, a connecting column 410 is fixedly arranged on one side of the connecting plate 409, a baffle 411 is fixedly arranged at one end of the connecting column 410, a fixed cross bar 412 is fixedly arranged on the inner walls of two sides of the cooling box 3, sliding plates 414 are fixedly arranged at the bottom of the sliding sleeve 405, the number of the sliding plates 414 is two, the two groups of the sliding plates 414 are respectively in sliding fit with the fixed cross bar 412, springs 413 and 4001 are fixedly arranged on the adjacent side walls of the two groups of the sliding plates 414, an input pipe is fixedly arranged at one end of the input pipe and the bottom of the cooling box 3, one end of the input pipe extends into the cooling box 3, a control circulating pump 401 is started, the circulating pump 401 can pump out cooling liquid in the cooling box 3, the cooling liquid is conveyed into the cooling coil 403 through the output pipe 402, flows through the cooling coil 403 and then is discharged into the cooling box 3, on the one hand, the circulating pump 401 can circulate the cooling liquid inside the cooling coil 403, so that the cooling effect of the electrolytic tank can be improved, the situation that the cooling effect is influenced by heating of the cooling coil 403 is avoided, on the other hand, when the power of the electrolytic tank is higher, the internal heating can be more serious, and the cooling coil 403 is difficult to cool through the placing box 408 in the circulating process of the cooling coil 403 by adding ice cubes into the placing box 408, so that the temperature of the cooling coil 403 is reduced, and the cooling effect of the electrolytic tank 2 is improved.

Still further, the fixed cross bar 412 is located inside the spring 413, the outer wall of the fixed cross bar 412 is not contacted with the inner wall of the spring 413, an opening for the installation platform 407 and the placement box 408 to move is formed in one side of the cooling box 3, a sliding groove is formed in the installation platform 407, the number of the fixed rods 406 is two, the top of one group of the fixed rods 406 is fixedly provided with a sliding block, the sliding block is slidably mounted in the sliding groove, one group of the fixed rods 406 and the installation platform 407 are slidably mounted, an inclined plate is fixedly mounted on the inner wall of one side of the cooling box 3, and one side of the inclined plate is fixedly mounted on the bottom of the inner side of the cooling box 3.

Working principle: when the cooling device is used, the circulating pump 401 is controlled to start, the cooling liquid in the cooling box 3 can be pumped out, the cooling liquid is conveyed to the inside of the cooling coil 403 through the output pipe 402, the cooling liquid is discharged to the inside of the cooling box 3 after flowing through the cooling coil 403, then the cooling liquid is circulated, when the temperature of the electrolytic tank 2 is too high, the baffle 411 is pulled, the baffle 411 moves to drive the placing box 408 through the connecting plate 409 and the connecting column 410, the mounting table 407 and the fixing rod 406 are driven to move when the placing box 408 moves, the fixing rod 406 moves to drive the sliding sleeve 405 to slide, when one group of the sliding sleeve 405 is in contact with one side inner wall of the cooling box 3, one group of the sliding sleeve 405 does not move, the other group of the sliding sleeve 405 slides, the spring 413 contracts, the placing box 408 moves to one side of the cooling box 3, ice cubes are poured into the inside of the placing box 408, when the placing box 408 is reset to the inside of the cooling box 3, the cooling liquid discharged by the cooling coil 403 flows into the inside of the placing box 408, when the cooling liquid in the placing box 408 flows out from the top, and the cooling liquid is sucked into the inside of the cooling box 401 through the circulating pump.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present utility model.

Claims (6)

1. A cooling device for an electrolytic cell, characterized in that: comprising the following steps:

the bottom plate (1), the top of the bottom plate (1) is fixedly provided with an electrolytic tank (2) and a cooling box (3), and the cooling box (3) is positioned on the right side of the electrolytic tank (2);

and the cooling assembly (4) is arranged on the bottom plate (1), the cooling assembly (4) comprises a cooling coil (403), and the cooling coil (403) is wound on the outer wall of the electrolytic tank (2) and is used for cooling the electrolytic tank (2).

2. A cooling device for an electrolytic cell according to claim 1, wherein: the cooling component (4) further comprises a circulating pump (401), an output pipe (402), a mounting cross rod (404), a sliding sleeve (405), a fixed rod (406), a mounting table (407), a placing box (408), a connecting plate (409), a connecting column (410), a baffle plate (411), a fixed cross rod (412), a spring (413) and a sliding plate (414), the circulating pump (401) is fixedly arranged at the top of the bottom plate (1), the output pipe (402) is fixedly arranged at the output end of the circulating pump (401), one end of the output pipe (402) is fixedly connected with one end of the cooling coil (403), the other end of the cooling coil (403) extends to the inside of the cooling box (3), two groups of mounting cross rods (404) are fixedly arranged on the inner walls of two sides of the cooling box (3), the outer walls of the two groups of the mounting cross rods (404) are slidably provided with the sliding sleeve (405), the fixed rod (406) is fixedly arranged at the top of the sliding sleeve (405), the mounting table (407) is fixedly arranged at the top of the fixed rod (406), the connecting plate (409) is fixedly arranged at one side of the connecting plate (409), one side of the connecting plate (409) is fixedly arranged at the top of the fixing table (407), one side of the connecting plate (409) is fixedly provided with the connecting plate (410), fixed cross bars (412) are fixedly arranged on the inner walls of the two sides of the cooling box (3), sliding plates (414) are fixedly arranged at the bottoms of the sliding sleeves (405), the number of the sliding plates (414) is two, the two groups of sliding plates (414) are in sliding fit with the fixed cross bars (412), the input ends of springs (413) and (4001) are fixedly arranged on the adjacent side walls of the two groups of sliding plates (414), an input pipe is fixedly arranged at the input ends of the springs, one end of the input pipe is fixedly arranged at the bottom of the cooling box (3), and one end of the input pipe extends to the inside of the cooling box (3).

3. A cooling device for an electrolytic cell according to claim 2, characterized in that: the fixed cross rod (412) is positioned in the spring (413) and the outer wall of the fixed cross rod (412) is not contacted with the inner wall of the spring (413).

4. A cooling device for an electrolytic cell according to claim 3, characterized in that: one side of the cooling box (3) is provided with an opening for the movable mounting table (407) and the placing box (408).

5. A cooling device for an electrolytic cell according to claim 4, wherein: the inside of mount table (407) has seted up the spout, and the quantity of dead lever (406) is two sets of, and the top fixed mounting of one set of dead lever (406) has the slider, and slider slidable mounting is in the spout, and one set of dead lever (406) and mount table (407) are slidable mounting.

6. A cooling device for an electrolytic cell according to claim 5, wherein: an inclined plate is fixedly arranged on the inner wall of one side of the cooling box (3), and one side of the inclined plate is fixedly arranged at the bottom of the inner side of the cooling box (3).