CN220503222U

CN220503222U - Catholyte feed supplement device

Info

Publication number: CN220503222U
Application number: CN202322166662.3U
Authority: CN
Inventors: 林小胡; 麻洪明; 何朋朋
Original assignee: Wenzhou Kerui Environment Resource Utilization Co ltd
Current assignee: Wenzhou Kerui Environment Resource Utilization Co ltd
Priority date: 2023-08-10
Filing date: 2023-08-10
Publication date: 2024-02-20
Anticipated expiration: 2033-08-10

Abstract

The utility model relates to a catholyte feeding device, which relates to the technical field of liquid feeding devices, and comprises a main pipe, wherein a plurality of branch pipes are connected to the main pipe, a plurality of liquid discharge pipes are connected to the branch pipes, and a power part for providing power for extracting catholyte is arranged at one end of the main pipe; the side surface of the main pipe is provided with a transparent and visible monitoring pipe, the monitoring pipe is used for connecting the main pipe and the branch pipe, and two ends of the monitoring pipe are respectively communicated with the outer peripheral surface of the main pipe and the end part of the branch pipe; this application is through transparent visual monitor pipe setting, when needs detect the pipeline, the staff can see through the monitor pipe and judge whether this pipeline can normal fluid infusion to this realizes the detection to the pipeline under the condition that does not influence normal reaction tank normal work, improves the detection efficiency of staff to the pipeline.

Description

Catholyte feed supplement device

Technical Field

The application relates to the technical field of liquid supplementing devices, in particular to a catholyte feeding device.

Background

The reaction tank catholyte feed is a technology for supplementing consumed catholyte in the electrochemical reaction process. In electrochemical reactions, catholyte tends to be depleted or react with other materials, resulting in a decrease in its concentration; to maintain stability and efficiency of the reaction, the catholyte needs to be replenished periodically or periodically.

In the related art, a reaction tank comprises a tank body, wherein the tank body is divided into a plurality of reaction chambers; the liquid replenishing of the reaction tank is completed by a special liquid replenishing system, most of the existing liquid replenishing systems adopt a liquid supply main pipe and a branch valve to replenish liquid into the reaction cavity, the branch valve mainly adopts a manual control mode, and cathode liquid is respectively injected into the corresponding reaction cavity through the branch valve.

Because the reaction chambers in the tank body are more, pipelines and branch valves in the fluid infusion system are more, and workers need to detect the fluid infusion system regularly, and the reaction tank needs to be stopped in the maintenance process so as to detect whether the related pipelines are normally used; however, as the branch valves and the related pipelines are more, the workers need to consume more time to overhaul the pipelines, so that the reaction tank needs to be stopped for a longer time, and the working efficiency is affected.

Disclosure of Invention

The purpose of this application is to provide a catholyte feed unit, solves among the above-mentioned correlation technique because branch valve and the pipeline that involves are more, and the staff need consume more time to the pipeline maintenance, so the reaction tank need be shut down for a long time, influences work efficiency's problem.

The application provides a catholyte feed unit adopts following technical scheme:

the catholyte feeding device comprises a main pipe, wherein a plurality of branch pipes are connected to the main pipe, a plurality of liquid discharge pipes are connected to the branch pipes, and a power part for providing power for extracting catholyte is arranged at one end of the main pipe; the side of being responsible for is equipped with transparent visual monitoring pipe, the monitoring pipe is used for connecting to be responsible for and the bleeder, the both ends of monitoring pipe communicate with the outer peripheral face of being responsible for and the tip of bleeder respectively.

By adopting the technical scheme, when the catholyte needs to be extracted to the corresponding reaction cavity for fluid replacement, the power piece is started, so that the catholyte is sequentially extracted to the main pipe, the branch pipe and the liquid discharge pipe, and finally the catholyte is injected into the corresponding reaction tank from the pipe orifice of the liquid discharge pipe; when the pipeline is required to be detected, a worker can judge whether the pipeline can be used for supplementing liquid normally through the monitoring pipe, so that the detection of the pipeline is realized under the condition that the normal work of the normal reaction tank is not influenced, and the detection efficiency of the worker on the pipeline is improved.

Optionally, the inner walls of the two end parts of the monitoring tube are respectively fixed with a blocking net.

By adopting the technical scheme, impurities in the catholyte are prevented from being injected into the reaction cavity along the pipeline through the arrangement of the blocking net in the liquid supplementing process of the catholyte, the purity of the catholyte can be kept, the expected product is facilitated to be obtained, and possible side reactions or adverse effects are reduced.

Optionally, the inside of monitor pipe is equipped with the movable column that is located between two separation nets, the lateral surface of movable column exists the clearance with the inner wall of monitor pipe.

Through adopting above-mentioned technical scheme, when the catholyte feed, the catholyte is from being responsible for in the pipe extraction to the bleeder inside, this in-process catholyte strikes the bottom side of activity post, makes the upper side of activity post and the separation net side butt that is located the upside, and the staff can judge this pipeline and can normally feed liquid according to the showy state of activity post, and the staff of being convenient for detects this pipeline and can normally feed liquid.

Optionally, the inside coaxial guide bar that is equipped with of monitor pipe, the both ends of guide bar respectively with two separation net fixed connection, set up the guiding hole that supplies the guide bar to run through on the movable column.

Through adopting above-mentioned technical scheme, the movable column can slide along the length direction of guide bar, at the impact process of catholyte to the movable column, improves the stability of movable column in monitoring pipe internal activity.

Optionally, the side edge of the movable column, which is close to the main pipe, is a round angle.

By adopting the technical scheme, as the side edge of the movable column close to the main pipe is a round angle, the impact of catholyte on the movable column during fluid infusion is reduced, and the service life of the movable column is prolonged.

Optionally, the side of bleeder is equipped with the intermediate tube that is used for intercommunication fluid-discharge tube and bleeder, be equipped with mutually perpendicular's inlet tube and outlet pipe on the intermediate tube, fluid-discharge tube and outlet pipe connection, the inlet tube runs through the top side of bleeder and extends to the inside of bleeder, be equipped with the inlet opening on the side that the inlet tube tip is close to the person in charge.

Through adopting above-mentioned technical scheme, when the inside catholyte extraction of lateral pipe is to the fluid-discharge tube inside, through the installation setting of intermediate tube, the inside catholyte of lateral pipe is poured into the intermediate tube inside through the inlet opening on the inlet tube, then pours into the inside of fluid-discharge tube into through the outlet pipe, and then pours into the inside of reaction chamber into to this completion catholyte's fluid replacement.

Optionally, the tip of inlet tube and the inner wall downside butt of bleeder.

Through adopting above-mentioned technical scheme, even the catholyte flow in the bleeder is less, through the setting of the tip and the inner wall downside butt of bleeder of inlet tube, also can make catholyte pass through the inlet opening and gather into the fluid-discharge tube inside.

Optionally, the liquid discharge pipe is a hose, and the end part of the liquid discharge pipe is fixedly sleeved on the outer peripheral surface of the end part of the water outlet pipe.

By adopting the technical scheme, as the liquid discharge pipe is a hose, and the end part of the liquid discharge pipe is fixedly sleeved on the peripheral surface of the end part of the water outlet pipe, the liquid discharge pipe and the water outlet pipe are convenient to assemble and fix.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through transparent visual monitor tube setting, when needs detect the pipeline, the staff can see through the monitor tube and judge whether this pipeline can normal fluid infusion to this realizes the detection to the pipeline under the circumstances that does not influence normal reaction tank normal work, improves the detection efficiency of staff to the pipeline.

2. Through the cooperation setting of guide bar and movable column, the staff can judge that this pipeline can normally be fed with liquid according to the floating state of movable column, and the staff of being convenient for detects whether this pipeline can normally be fed with liquid; and the movable column can slide along the length direction of the guide rod, so that the stability of the movable column in the monitoring tube is improved in the impact process of catholyte to the movable column.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of a partial cross-sectional structure embodying a monitor tube mounting fit in an embodiment of the present application;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

FIG. 4 is a schematic view in partial cross-section of an embodiment of the present application embodying an intermediate tube mounting fit.

In the figure, 1, a main pipe; 2. a branch pipe; 3. a liquid discharge pipe; 4. a power member; 41. a water pump; 5. monitoring a tube; 51. a barrier web; 511. a limit groove; 52. a guide rod; 53. a movable column; 531. a guide hole; 6. a middle tube; 61. a water inlet pipe; 611. a water inlet hole; 62. and a water outlet pipe.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

Examples:

referring to fig. 1, a catholyte feeding device comprises a main pipe 1 and four branch pipes 2, wherein the plurality of branch pipes 2 are all communicated with the outer peripheral surface of the main pipe 1, the branch pipes 2 are all connected with four liquid discharge pipes 3, and one end of the main pipe 1 is provided with a power piece 4 for providing power for extracting catholyte.

Referring to fig. 1, the power part 4 is a water pump 41, reaction chambers with the same number as that of the liquid discharge pipes 3 are uniformly separated on the tank body, and each liquid discharge pipe 3 is arranged above the corresponding reaction chamber; when the catholyte needs to be pumped into the corresponding reaction cavity for fluid replacement, the water suction pump 41 is started, so that the catholyte is sequentially pumped into the main pipe 1, the branch pipe 2 and the liquid discharge pipe 3, and finally injected into the corresponding reaction cavity from the pipe orifice of the liquid discharge pipe 3.

Referring to fig. 1 and 2, a transparent and visible monitoring tube 5 is arranged on the side surface of a main tube 1, the monitoring tube 5 is made of a PC material, the monitoring tube 5 is used for connecting the main tube 1 and a branch tube 2, and two ends of the monitoring tube 5 are respectively communicated with the outer peripheral surface of the main tube 1 and the end part of the branch tube 2; staff can see through monitor pipe 5 and judge whether this pipeline can normally make-up, reduces the required time of detection fluid infusion system, improves the maintenance efficiency of reaction tank. The part of the main pipe 1 close to the monitoring pipe 5 is provided with a control valve to control the communication of the catholyte from the main pipe 1 to the monitoring pipe 5.

Referring to fig. 2, the inner walls of the two end portions of the monitoring tube 5 are respectively fixed with a blocking net 51, wherein the outer circumferential surface of the blocking net 51 is provided with external threads, the inner wall of the end portion of the monitoring tube 5 is provided with internal threads, and the outer circumferential surface of the blocking net 51 is in threaded fit with the inner wall of the end portion of the monitoring tube 5, so that the blocking net 51 and the monitoring tube 5 are assembled and fixed.

Referring to fig. 2 and 3, a movable column 53 and a guide rod 52 are arranged in the monitoring pipe 5 and positioned between two barrier nets 51, wherein the movable column 53 is cylindrical in outline shape, and the movable column 53 is made of foam material and can float on the water surface; the middle part of the blocking net 51 is provided with a limit groove 511 for inserting a guide rod 52, and after the guide rod 52 is installed, the guide rod 52 and the monitoring tube 5 are overlapped in the axial line in the length direction; the outer side surface of the movable column 53 has a gap with the inner wall of the monitoring tube 5, and the movable column 53 is provided with a guide hole 531 for the guide rod 52 to penetrate, and the movable column 53 can slide along the length direction of the guide rod 52.

Referring to fig. 2, the side edge of the movable column 53, which is close to the main pipe 1, is a round angle, so that the impact of catholyte on the movable column 53 during fluid infusion is reduced, and the service life of the movable column 53 is prolonged; when the catholyte is fed, the catholyte is pumped from the main pipe 1 to the branch pipe 2, and the movable column 53 is impacted in the process, so that the upper side surface of the movable column 53 is abutted against the side surface of the barrier net 51 positioned at the upper side, and the pipeline can be judged to be capable of normally feeding according to the floating state of the movable column 53.

Referring to fig. 4, a side surface of the branch pipe 2 is provided with a middle pipe 6 for communicating the liquid discharge pipe 3 and the branch pipe 2, the middle pipe 6 is provided with a water inlet pipe 61 and a water outlet pipe 62 which are mutually perpendicular, the water inlet pipe 61 penetrates through the upper side surface of the branch pipe 2 and extends into the branch pipe 2, and a water inlet hole 611 is arranged on the side surface of the end part of the water inlet pipe 61 close to the main pipe 1 (see fig. 1); the end of the water inlet pipe 61 is in contact with the bottom side of the inner wall of the branch pipe 2, and even if the flow rate of catholyte in the branch pipe 2 is small, the catholyte can be introduced into the drain pipe 3 through the water inlet hole 611 by the arrangement in which the end of the water inlet pipe 61 is in contact with the bottom side of the inner wall of the branch pipe 2.

Referring to fig. 4, the liquid discharge pipe 3 is a hose, the liquid discharge pipe 3 is made of PE, a pipe orifice of the liquid discharge pipe 3 is connected with the water outlet pipe 62, wherein the end part of the liquid discharge pipe 3 is fixedly sleeved on the outer peripheral surface of the end part of the water outlet pipe 62, and the pipe orifice of the liquid discharge pipe 3 far away from the water outlet pipe 62 is positioned above the reaction cavity; the catholyte inside the branch pipe 2 is injected into the middle pipe 6 through the water inlet hole 611 on the water inlet pipe 61, then is injected into the liquid discharge pipe 3 through the water outlet pipe 62, and then is injected into the reaction cavity, so that the catholyte supplementing is completed.

The implementation principle of the embodiment of the application is as follows:

when the catholyte needs to be extracted to the corresponding reaction cavity for fluid replacement, the water suction pump 41 is started, so that the catholyte is sequentially extracted to the main pipe 1, the monitoring pipe 5, the branch pipe 2, the middle pipe 6 and the liquid discharge pipe 3, and finally injected into the corresponding reaction tank from the pipe orifice of the liquid discharge pipe 3; the worker can judge whether the pipe can normally supplement liquid or not through the floating state of the monitoring pipe 5 and the movable column 53.

The embodiments of this embodiment are all preferred embodiments of the present application, and are not intended to limit the scope of the present application, in which like parts are denoted by like reference numerals. Therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. The catholyte feeding device comprises a main pipe (1), wherein a plurality of branch pipes (2) are connected to the main pipe (1), a plurality of liquid discharge pipes (3) are connected to the branch pipes (2), and a power piece (4) for providing power for extracting catholyte is arranged at one end of the main pipe (1);

the device is characterized in that a transparent and visible monitoring pipe (5) is arranged on the side face of the main pipe (1), the monitoring pipe (5) is used for connecting the main pipe (1) and the branch pipe (2), and two ends of the monitoring pipe (5) are respectively communicated with the outer peripheral face of the main pipe (1) and the end portion of the branch pipe (2).

2. The catholyte feeding device according to claim 1, wherein the inner walls of both ends of the monitoring tube (5) are each fixed with a barrier net (51).

3. The catholyte feeding device according to claim 2, wherein the monitoring tube (5) is internally provided with a movable column (53) located between the two barrier nets (51), and a gap exists between the outer side surface of the movable column (53) and the inner wall of the monitoring tube (5).

4. A catholyte feeding device according to claim 3, wherein the inside of the monitoring tube (5) is coaxially provided with a guide rod (52), two ends of the guide rod (52) are respectively fixedly connected with two barrier nets (51), and the movable column (53) is provided with a guide hole (531) for the guide rod (52) to penetrate.

5. A catholyte feeding device according to claim 3, wherein the side edges of the movable column (53) adjacent to the main pipe (1) are rounded.

6. The catholyte feeding device according to claim 1, wherein the lateral surface of the lateral pipe (2) is provided with a middle pipe (6) for communicating the liquid discharge pipe (3) and the lateral pipe (2), the middle pipe (6) is provided with a water inlet pipe (61) and a water outlet pipe (62) which are mutually perpendicular, the liquid discharge pipe (3) is connected with the water outlet pipe (62), the water inlet pipe (61) penetrates through the upper lateral surface of the lateral pipe (2) and extends to the inside of the lateral pipe (2), and the lateral surface of the end part of the water inlet pipe (61) close to the main pipe (1) is provided with a water inlet hole (611).

7. The catholyte feeding device according to claim 6, wherein the end of the inlet pipe (61) is in abutment with the bottom side of the inner wall of the branch pipe (2).

8. The catholyte feeding device according to claim 6, wherein the liquid discharge pipe (3) is a hose, and the end of the liquid discharge pipe (3) is fixedly sleeved on the outer peripheral surface of the end of the water outlet pipe (62).