CN213113540U - Online cleaning structure of electrolytic cell - Google Patents

Abstract

The utility model discloses an electrolysis trough online cleaning's structure, the online cleaning structure send into pump, filter equipment, washing liquid circulating pump, washing liquid recovery unit and water pitcher including washing liquid holding vessel, electrolysis trough, washing liquid. The method for cleaning the electrolytic cell on line comprises the following steps: closing a water inlet and a water outlet of the electrolytic cell, opening a cleaning liquid inlet, pumping the cleaning liquid into a reaction chamber of the electrolytic cell by a circulating pump, filling the whole reaction chamber of the electrolytic cell with the cleaning liquid, then opening a cleaning liquid outlet, filtering the outflowing cleaning liquid by a filtering device, circularly flowing in the chamber under the action of the circulating pump, and after the circular cleaning is finished, cleaning the electrolytic cell by using distilled water until the conductivity is less than 5-10 mu S/cm. The utility model adopts the technical method of directly refitting the structural components of the electrolytic bath, can wash the electrolytic bath in a complete state in the whole electrolytic bath, saves a large number of operation steps and reduces the possibility of performance reduction caused by the disassembly washing.

Description

Online cleaning structure of electrolytic cell

Technical Field

The utility model relates to a work piece washs technical field, concretely relates to electrolysis trough on-line cleaning's structure.

Background

The performance of the electrolytic cell in the prior art is inevitably reduced after the electrolytic cell is used for a period of time, and besides the quality problem of the electrolytic cell, the membrane electrode catalytic layer is polluted most probably. Various impurity ions or other impurities enter the reaction chamber through water flow and finally attach to the surface of the catalyst layer, so that the catalytic effect of the catalyst is reduced, and the reduction can not be actively reversed. Generally, the cell is maintained at intervals, with emphasis on membrane electrode cleaning.

The utility model with the patent number of CN202658240U discloses an ion membrane electrode cleaning device; the ultrasonic water heater comprises a tank body, a water inlet pipe and a water outlet pipe, wherein the water inlet pipe and the water outlet pipe are installed on the tank body, a plurality of heating pipes are installed inside the tank body, and a plurality of ultrasonic generators are installed at the bottom of the tank body. The utility model discloses can rinse attached crystallization salt piece, caustic soda piece on the power down electrode completely, improve ionic membrane electrode's clean degree to can automatic temperature control.

However, similar to the method disclosed in the above patent, the most common cleaning method in the prior art is to completely disassemble the electrolytic cell, take out the membrane electrode therein, then separately clean the membrane electrode, and reassemble the membrane electrode after cleaning. However, some of the electrolytic cells are large in size, heavy in weight, extremely difficult to disassemble and assemble, often require a large amount of manpower, material resources and time for one-time simple maintenance, are extremely high in cost, and the performance of the membrane electrode which is reinstalled after the maintenance is finished is possibly not up to the original standard.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem and provide an on-line cleaning structure of an electrolytic tank, which is suitable for electrolytic tanks with different volumes and has good cleaning effect.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

an online cleaning structure of an electrolytic cell comprises a cleaning solution storage tank, the electrolytic cell, a cleaning solution feeding pump for pumping the cleaning solution into the electrolytic cell, a filtering device for processing the cleaning solution discharged from the electrolytic cell, a cleaning solution circulating pump, a cleaning solution recovery device and a water tank; the cleaning solution storage tank, the electrolytic bath, the filtering device and the cleaning solution recovery device are connected through pipelines, the cleaning solution feeding pump is arranged on the pipeline between the cleaning solution storage tank and the electrolytic bath, and the water tank is connected between the cleaning solution storage tank and the cleaning solution feeding pump through a pipeline; the circulating pump is connected with the electrolytic bath and the filtering device in parallel, one end of the pipeline is arranged between the cleaning liquid feeding pump and the electrolytic bath, and the other end of the pipeline is arranged between the filtering device and the cleaning liquid recovery device.

Preferably, the electrolytic bath comprises a reaction chamber, a membrane electrode, a bipolar plate, a cleaning solution inlet, a cleaning solution outlet and a sealing member for preventing leakage; the membrane electrode and the bipolar plate are arranged in the reaction chamber, the cleaning solution inlet is arranged above the electrolytic bath, the cleaning solution outlet is arranged below the electrolytic bath, and the sealing elements are respectively arranged at the cleaning solution inlet and the cleaning solution outlet.

Preferably, the number of the cleaning liquid inlets and cleaning liquid outlets depends on the volume of the electrolytic bath.

Preferably, the sealing element comprises a sealing plug, a rubber surface layer coated on the surface of the sealing plug, a handle and a sealing gasket.

Preferably, the cleaning solution is dilute hydrochloric acid with the concentration of 3-9%, and the temperature is 75-85 ℃.

Preferably, the membrane electrode comprises a proton exchange membrane and a membrane electrode catalyst layer embedded in the proton exchange membrane.

Preferably, the electrolytic cell further comprises a water inlet and a water outlet.

The utility model discloses the beneficial effect who produces includes:

1) the utility model discloses a structure and a method for cleaning an electrolytic tank on line, which adopts a technical method of directly modifying structural components of the electrolytic tank, can clean the electrolytic tank in a complete state of the whole electrolytic tank, saves a large number of operation steps and reduces the possibility of performance reduction caused by disassembly and cleaning;

2) the thorough cleaning is helpful for detecting the air tightness of the electrolytic cell in the subsequent process;

3) the cleaning liquid inlet and outlet are provided with the sealing components, so that liquid is effectively prevented from flowing out of the cleaning holes, and the cleaning efficiency and the normal operation of the electrolytic cell are ensured;

4) the utility model discloses the principle is simple, and maneuverability is strong, has saved a large amount of manpower and materials, has saved the required time of washing.

Drawings

FIG. 1 is a schematic view of a structure of an on-line cleaning of an electrolytic cell;

FIG. 2 is an overall structure view of a single cell of the electrolytic cell;

FIG. 3 is a schematic view of the inside of a single cell of the electrolytic cell;

FIG. 4 is a schematic view of a seal assembly;

wherein, 1 is a cleaning solution storage tank, 2 is a cleaning solution feeding pump, 3 is an electrolytic bath, 4 is a filtering device, 5 is a circulating pump, 6 is a cleaning solution recovery device, 31 is a reaction chamber, 32 is a membrane electrode, 321 is a proton exchange membrane, 322 is a membrane electrode catalyst layer, 33 is a bipolar plate, 34 is a cleaning solution inlet, 35 is a cleaning solution outlet, 36 is a sealing element, 37 is a water inlet, 38 is a water outlet, 361 is a sealing plug, 362 is a rubber surface layer, 363 is a handle, and 364 is a sealing washer.

Detailed Description

The present invention will be further described with reference to the following specific embodiments.

An online cleaning structure of an electrolytic cell comprises a cleaning solution storage tank 1, an electrolytic cell 3, a cleaning solution feeding pump 2 for pumping the cleaning solution into the electrolytic cell, a filtering device 4 for processing the cleaning solution discharged from the electrolytic cell 3, a cleaning solution circulating pump 5, a cleaning solution recovery device 6 and a water tank 7; the cleaning solution storage tank 1, the electrolytic bath 3, the filtering device 4 and the cleaning solution recovery device 6 are connected through pipelines, the cleaning solution feeding pump 2 is arranged on the pipeline between the cleaning solution storage tank 1 and the electrolytic bath 3, and the water tank 7 is connected between the cleaning solution storage tank 1 and the cleaning solution feeding pump 2 through a pipeline; the circulating pump 5 is arranged in parallel with the electrolytic bath 3 and the filtering device 4, one end of a pipeline of the circulating pump is arranged between the cleaning liquid feeding pump 2 and the electrolytic bath 3, and the other end of the pipeline is arranged between the filtering device 4 and the cleaning liquid recovery device 6.

The schematic diagram of the internal structure of the single cell of the electrolytic cell 3 is shown in fig. 3, and referring to fig. 3, the single cell of the electrolytic cell comprises a reaction chamber 31, a membrane electrode 32, a bipolar plate 33, a cleaning solution inlet 34, a cleaning solution outlet 35 and a leakage-proof sealing member 36; the membrane electrode 32 and the bipolar plate 33 are arranged in the reaction chamber 31, the cleaning solution inlet 34 is arranged above the electrolytic bath 3, the cleaning solution outlet 35 is arranged below the electrolytic bath 3, and the sealing element 36 is respectively arranged at the cleaning solution inlet 34 and the cleaning solution outlet 35.

The electrolytic cell 3 further comprises a water inlet 37 and a water outlet 38.

Fig. 2 is an overall structure diagram of a single electrolytic cell, and as shown in fig. 2, a cleaning liquid inlet 34 and a cleaning liquid outlet 35 are disposed on a housing of the electrolytic cell 3, and the cleaning liquid can enter from the cleaning liquid inlet 34, flow through the entire reaction chamber 31, and be discharged from the cleaning liquid outlet 35 after cleaning the electrolytic cell, particularly the membrane electrode 32, without removing the membrane electrode 32.

The membrane electrode 32 includes a proton exchange membrane 321 and a membrane electrode catalyst layer 322 embedded in the proton exchange membrane.

The quantity of washing liquid import 34 and washing liquid export 35 the size of the volume of electrolysis trough 3 is decided, the embodiment of the utility model provides an in washing liquid import 34 quantity be 1, washing liquid export 35 quantity be 1.

The schematic diagram of the sealing element 36 is shown in fig. 4, and includes a sealing plug 361, a rubber surface layer 362 coated on the surface of the sealing plug 361, a handle 363 and a sealing washer 364.

The washing liquid includes 3~9% dilute hydrochloric acid for the concentration, and the temperature is 75~85 ℃, the embodiment of the utility model provides a dilute hydrochloric acid concentration is 5%, and the temperature is 80 ℃.

The method for cleaning the electrolytic cell on line based on the electrolytic cell cleaning structure comprises the following steps:

closing the water inlet 37 and outlet 38 of the electrolytic cell;

opening a cleaning liquid inlet 34, pumping cleaning liquid into a reaction chamber 31 of an electrolytic cell 3 from a cleaning liquid storage tank 1 by a circulating pump 5, filling the whole reaction chamber 31 of the electrolytic cell 3 with the cleaning liquid, then opening a cleaning liquid outlet 35, filtering the cleaned dregs by a filtering device 4 after the cleaning liquid flows out, circularly flowing in the reaction chamber 31 under the action of the circulating pump 5, taking away the cleaned impurities, then repeating the steps to continuously and circularly pump the cleaning liquid in the chamber of the electrolytic cell 3 for a period of time, wherein the circulating time is 1.5-4 h, and the preferred circulating time in the embodiment of the utility model is 3.5 h; and after the cleaning is finished, stopping pumping the cleaning liquid, continuously starting the feeding pump 2, pumping the distilled water out of the water tank 7, washing the electrolytic tank by using the distilled water, stopping the operation of the circulating pump 5, cleaning the electrolytic tank 3 until the conductivity is less than 5-10 mu S/cm, and finishing the cleaning.

After cleaning, the cleaning liquid inlet 34 and the cleaning liquid outlet 35 are sealed by the sealing assembly 36, and in the cleaning process, the cleaning liquid inlet 34 and the cleaning liquid outlet 35 are both in a closed state at other times.

Valves are arranged at the liquid outlet of the cleaning liquid storage tank 1, the water outlet of the water tank 7, the cleaning liquid inlet of the cleaning liquid recovery device 6 and the circulating pipeline of the cleaning liquid.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, but rather as the invention is intended to cover all modifications, equivalents and improvements falling within the spirit and principles of the present invention.

Claims (7)

1. The utility model provides an online cleaning structure of electrolysis trough which characterized in that: comprises a cleaning solution storage tank (1), an electrolytic tank (3), a cleaning solution feeding pump (2) for pumping the cleaning solution into the electrolytic tank, a filtering device (4) for processing the cleaning solution discharged from the electrolytic tank (3), a cleaning solution circulating pump (5), a cleaning solution recovery device (6) and a water tank (7); the cleaning solution storage tank (1), the electrolytic bath (3), the filtering device (4) and the cleaning solution recovery device (6) are connected through pipelines, the cleaning solution feeding pump (2) is arranged on the pipeline between the cleaning solution storage tank (1) and the electrolytic bath (3), and the water tank (7) is connected between the cleaning solution storage tank (1) and the cleaning solution feeding pump (2) through a pipeline; the circulating pump (5) is connected with the electrolytic tank (3) and the filtering device (4) in parallel, one end of a pipeline of the circulating pump is arranged between the cleaning liquid feeding pump (2) and the electrolytic tank (3), and the other end of the pipeline is arranged between the filtering device (4) and the cleaning liquid recovery device (6).

2. The structure for on-line cleaning of the electrolytic cell according to claim 1, wherein: the electrolytic tank (3) comprises a reaction chamber (31), a membrane electrode (32), a bipolar plate (33), a cleaning solution inlet (34), a cleaning solution outlet (35) and a sealing element (36) for preventing leakage; the membrane electrode (32) and the bipolar plate (33) are arranged in the reaction chamber (31), the cleaning solution inlet (34) is arranged above the electrolytic bath (3), the cleaning solution outlet (35) is arranged below the electrolytic bath (3), and the sealing element (36) is respectively arranged at the cleaning solution inlet (34) and the cleaning solution outlet (35).

3. The structure for on-line cleaning of the electrolytic cell according to claim 2, wherein: the number of the cleaning liquid inlets (34) and the cleaning liquid outlets (35) is determined according to the volume of the electrolytic bath (3).

4. The structure for on-line cleaning of the electrolytic cell according to claim 2, wherein: the sealing element (36) comprises a sealing plug column (361), a rubber surface layer (362) coated on the surface of the sealing plug column (361), a handle (363) and a sealing gasket (364).

5. The structure for on-line cleaning of the electrolytic cell according to claim 1, wherein: the cleaning solution comprises dilute hydrochloric acid with the concentration of 3-9%, and the temperature is 75-85 ℃.

6. The structure for on-line cleaning of the electrolytic cell according to claim 2, wherein: the membrane electrode (32) includes a proton exchange membrane (321) and a membrane electrode catalyst layer (322) embedded in the proton exchange membrane.

7. The structure for on-line cleaning of the electrolytic cell according to claim 1, wherein: the electrolytic tank (3) also comprises a water inlet (37) and a water outlet (38).

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