CN218175142U - Integrated electrolytic tank for cleaning production - Google Patents

Abstract

The utility model discloses an integrated electrolytic tank for cleaner production, including both ends board and the cell body of connecting both ends board, the cell body is open-top's U type structure, is equipped with the support frame of placing condenser tube in the inside wall of cell body, is equipped with the dog that acts on diaphragm system assembly on one end board, is equipped with the anolyte discharge port of connecting diaphragm system assembly anolyte room on another end board. The utility model discloses a set up the dog at the tip of cell body, can be convenient for diaphragm system assembly can realize radially spacing when using automatic lifting device, and the electrolysis trough is sent into to accurate, quick hanging, further improves automated control's work efficiency.

Description

Integrated electrolytic tank for cleaning production

Technical Field

The utility model relates to an integrated electrolytic cell is used in cleaner production, concretely relates to integrated electrolytic cell suitable for clean production of diaphragm system assembly belongs to electrolysis auxiliary assembly field.

Background

In the electrolytic production process of manganese metal, the electrolytic operation is carried out by using the diaphragm system assembly in an electrolytic tank filled with electrolyte. The diaphragm system assembly comprises a cathode chamber and an anode chamber which are formed by a diaphragm frame, an anode liquid tank communicated with the cathode chamber is arranged at the bottom of the diaphragm frame, and when the diaphragm system assembly is used, the diaphragm system assembly needs to be immersed into electrolyte for electroprecipitation reaction, so that metal manganese is precipitated on the cathode plate, and oxygen is precipitated on the anode plate. After the electroanalysis is finished, the cathode plate is taken out of the diaphragm system assembly, manganese metal can be obtained after treatment, after the electrolysis operation is carried out for a period of time, the diaphragm system assembly needs to be taken out of the electrolytic cell, the anolyte and the anode slag in the anolyte chamber are cleaned, and the anolyte and the anode slag generated in the electroanalysis reaction are not mixed in the electrolytic cell, so that the cleaning production of the metal manganese electrolysis process can be realized.

In the prior art, the utility model with the publication number of CN210529078U discloses a false-bottom-free tank body used in cooperation with a diaphragm system assembly, the tank body is enclosed by four side plates and a bottom plate to form a tank body structure, and cooling water pipes arranged in sequence are arranged on the inner wall of each side plate to adjust the temperature of the tank. However, in the large-scale manganese electrolysis production process, as the industrial automation is gradually improved, the automation control of the electrolysis device is imperative in order to solve the problems of production efficiency and consistency of the electrolysis device (diaphragm system assembly and electrolysis bath) in the manganese electrolysis production process, and the bath body structure disclosed in the patent can only meet the simple use requirement of the diaphragm system assembly, so the automation control and other functions of the diaphragm system assembly are still to be improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integrated electrolysis trough is used in cleaner production sets up the dog through the tip at the cell body, can be convenient for the diaphragm system assembly can realize radially spacing when using automatic lifting device, and the electrolysis trough is sent into to accurate, quick hanging, further improves automated control's work efficiency.

The utility model discloses a following technical scheme realizes: an integrated electrolytic cell for cleaning production comprises two end plates and a cell body connected with the two end plates, wherein the cell body is of a U-shaped structure with an open top, a support frame for placing a cooling water pipe is arranged on the inner side wall of the cell body, a stop block acting on a diaphragm system assembly is arranged on one end plate, and an anolyte discharge port connected with an anolyte chamber of the diaphragm system assembly is arranged on the other end plate.

The groove body is integrally formed by bending.

The groove body comprises two combined plates which are spliced in any mode to form a U-shaped structure, and only one connecting seam is arranged between the two combined plates.

The connecting seam is positioned on the side wall of the groove body, and the combined plates are all of an integrally formed structure.

The bottom of the groove body is provided with a sliding block for limiting the bottom of the diaphragm system assembly.

The sliding block and the supporting frame are of an integrated structure.

The support frame includes a plurality of couple holes along the vertical range of cell body inside wall, establishes the breach on the couple hole, and the cooling water pipe is put into the couple downtheholely along the breach.

And reinforcing ribs are arranged outside the groove body and the end plate.

And an electrolyte discharge port is arranged at the bottom of the end plate or the tank body.

Compared with the prior art, the utility model, have following advantage and beneficial effect:

(1) The utility model discloses a better automatic control and the operation of cooperation diaphragm system assembly are equipped with inside bellied dog at the end plate of electrolysis trough, can realize diaphragm system assembly quick location and radial spacing when putting into the electrolysis trough, improve automatic control's operating efficiency.

(2) The utility model discloses along the double-phase vertical a plurality of couple holes that set gradually of cell body to the lateral wall, can arrange the cooling water calandria that becomes of buckling in the cell body in proper order to realize the temperature control of electrolysis trough, the couple hole is equipped with the breach, makes things convenient for the workman directly to put into the couple downthehole through the breach, can realize placing of condenser tube, and the installation is all very convenient with the dismantlement.

(3) The utility model discloses a transversal U-shaped that personally submits of cell body, during the use, for the sealing performance who improves the electrolysis trough, can adopt the integrative shaping of bending, perhaps receive the restriction of the panel length of bending, can adopt two compoboards to constitute, only is equipped with a joint line between two compoboards, the sealing performance of multiplicable electrolysis trough, and is further, can set up the joint line at the cell body lateral wall to increase the sealing performance of electrolysis trough bottom.

(4) The utility model discloses still be equipped with the slider bottom the cell body, the slider is along the vertical downwardly extending of support frame place cell body lateral wall to be equipped with the slope structure to the inside slope of cell body, after diaphragm system assembly put into the electrolysis trough along the dog, diaphragm system assembly's bottom contacts the slider earlier, and slides into the cell body bottom along its slope structure downwards, can be spacing to it, in order to guarantee that diaphragm system assembly effectively fixes a position, and the uniformity of automation mechanized operation.

Drawings

Fig. 1 is a schematic diagram of the external structure of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a cross-sectional view of the present invention.

Fig. 4 is an installation schematic diagram of the cooling water pipe of the present invention.

The device comprises an end plate 1, a tank body 2, a support frame 3, a stop block 4, an anolyte discharge port 5, a slide block 6, a hook hole 7, a notch 8, a reinforcing rib 9, an electrolyte discharge port 10 and a cooling water pipe 11.

Detailed Description

The present invention will be described in further detail with reference to examples, but the present invention is not limited thereto.

Example (b):

in order to adapt to the consistency of automatic control and operation of the existing diaphragm system assembly and improve the sealing performance of the electrolytic cell, the embodiment provides the integrated electrolytic cell for cleaning production.

Adopt the structure shown in fig. 1-3, cell body 2 that is the U type structure including the open-top, and the both ends board 1 of closed cell body 2 tip, be equipped with dog 4 on one of them end board 1, can fix a position and radially spacing it when diaphragm system combination is put into the electrolysis trough, be equipped with anolyte discharge port 5 on another end board 1, be used for connecting the anolyte chamber of diaphragm system combination, can be directly outside the electrolysis trough from the anolyte chamber, electrolysis trough anolyte system leakproofness is fabulous, the electrolysis reaction does not return acid, the bath condition is stable, high yield, low energy consumption, realize cleaner production, electrolyte discharge port 10 is established to end board 1 or cell body 2 bottom, can be when clearing up the electrolysis trough or changing electrolyte blowdown use.

The electrolytic cell of the embodiment comprises two end plates 1 and a cell body 2, and reinforcing ribs 9 are arranged outside the end plates 1 and the cell body 2, as shown in the structure of figure 1, so that the strength of the electrolytic cell can be increased. In order to improve the sealing performance of the electrolytic cell, in one embodiment, a bending machine can be used for integrally bending and forming the plate with the corresponding size, if the bending size is limited, in another embodiment, the electrolytic cell also comprises two combined plates, and the two combined plates can be spliced to form a U-shaped structure in any mode, such as "

"type sum"

U-shape formed by two combined plates "

"type sum"

U-shape and two formed by two combined plates "

"U-shape formed by a combination of plates of the shape, etc., wherein"

'type'

"type sum"

The combined plates can be integrally formed by a bending machine, in addition, only one connecting seam is ensured to be arranged between the two combined plates so as to improve the sealing performance of the electrolytic cell, and further, the connecting seam can be positioned on the side wall of the cell body 2, as mentioned above "

"type sum"

The' type combination mode can effectively improve the sealing performance of the bottom of the electrolytic cell.

The utility model discloses be equipped with the support frame 3 of placing condenser tube 11 at the inside wall of cell body 2, as shown in the structure of fig. 3, support frame 3 includes along 2 inside wall vertical arrangement's of cell body a plurality of couple holes 7, establishes breach 8 on the couple hole 7, and condenser tube 11 makes things convenient for workman's installation and dismantlement in can putting into couple hole 7 along breach 8. In a specific embodiment, as shown in the structure of fig. 2, two rows of the support frames 3 may be symmetrically disposed on two opposite sidewalls of the tank body 2, the two rows of the support frames 3 are a group, and a plurality of groups may be arbitrarily disposed on a tank body structure, as shown in the structure of fig. 4, where three groups are uniformly distributed.

In this embodiment, the bottom of the tank body 2 is further provided with a slide block 6 for limiting the bottom of the diaphragm system assembly, as shown in the structure of fig. 2. The slider 6 is located the support frame 3 bottom, can be with support frame 3 structure as an organic whole to along with 2 inside walls downwardly extending of cell body to 2 bottoms of cell body, its and the contact surface of diaphragm system assembly establish to the inclined plane, when diaphragm system assembly contact slider 6, can follow the inclined plane and slide to 2 bottoms of cell body and carry out spacing and accurate positioning, in order to guarantee at every turn that diaphragm system assembly puts into the uniformity of electrolysis trough position.

In a specific operation case, adopt automatic lifting device to hoist the diaphragm system assembly body of treating to use to the electrolysis trough top, if set up infrared inductor, when automatic lifting device sensed the electrolysis trough position, stop moving the jib promptly, then transfer the diaphragm system assembly body to the electrolysis trough, the workman can be with the help of dog 4 with the diaphragm system assembly body better advance fix a position and further put the electrolysis trough down in, under the supplementary of slider 6, fix the assigned position at the electrolysis trough when the bottom of diaphragm system assembly body, accomplish placing of diaphragm system assembly body. Then communicating an anolyte chamber of the diaphragm system assembly with an anolyte discharge port 5 of the electrolytic cell through a pipeline, then putting an electrolyte into the electrolytic cell, inserting a cathode plate and an anode plate into the diaphragm system assembly, and carrying out electrolysis operation after electrifying. When the diaphragm system assembly needs to be cleaned, the diaphragm system assembly is directly hoisted out of the electrolytic cell by using automatic hoisting equipment without replacing electrolyte, and the standby diaphragm system assembly is put into the electrolytic cell again, so that the electrolytic operation can be continued, and the electrolytic production efficiency of the manganese metal is ensured.

The above is only the preferred embodiment of the present invention, not to the limitation of the present invention in any form, all the technical matters of the present invention all fall into the protection scope of the present invention to any simple modification and equivalent change of the above embodiments.

Claims (9)

1. An integrated electrolytic cell for cleaning production is characterized in that: the device comprises two end plates (1) and a tank body (2) connected with the two end plates (1), wherein the tank body (2) is of a U-shaped structure with an open top, a support frame (3) for placing a cooling water pipe (11) is arranged on the inner side wall of the tank body (2), a stop block (4) acting on a diaphragm system assembly is arranged on one end plate (1), and an anolyte discharge port (5) connected with an anolyte chamber of the diaphragm system assembly is arranged on the other end plate (1).

2. The integrated electrolytic cell for cleaning production according to claim 1, wherein: the groove body (2) is integrally formed by bending.

3. The integrated electrolytic cell for clean production according to claim 1, characterized in that: the groove body (2) comprises two combined plates which are spliced in any mode to form a U-shaped structure, and only one connecting seam is arranged between the two combined plates.

4. An integrated electrolytic cell for cleaning production according to claim 3, wherein: the connecting seam is positioned on the side wall of the groove body (2), and the composition plates are all of an integrally formed structure.

5. The integrated electrolytic cell for clean production according to claim 1, characterized in that: the bottom of the tank body (2) is provided with a sliding block (6) for limiting the bottom of the diaphragm system assembly.

6. An integrated electrolytic cell for cleaning production according to claim 5, wherein: the sliding block (6) and the support frame (3) are of an integrated structure.

7. The integrated electrolytic cell for clean production according to claim 1, characterized in that: the support frame (3) comprises a plurality of hook holes (7) which are vertically arranged along the inner side wall of the groove body (2), notches (8) are formed in the hook holes (7), and the cooling water pipe (11) is placed into the hook holes (7) along the notches (8).

8. The integrated electrolytic cell for cleaning production according to claim 1, wherein: reinforcing ribs (9) are arranged outside the groove body (2) and the end plate (1).

9. The integrated electrolytic cell for clean production according to claim 1, characterized in that: an electrolyte discharge port (10) is arranged at the bottom of the end plate (1) or the tank body (2).

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