CN218435000U - A retrieval and utilization equipment for nickeliferous waste water - Google Patents

Abstract

The utility model discloses a retrieval and utilization equipment for nickeliferous waste water, including the installation base, installation base top middle part fixed mounting has the treatment tower, there is driving motor at treatment tower top middle part through mounting bracket fixed mounting, driving motor supplies power through external power source, driving motor output shaft bottom corresponds the inboard position department fixedly connected with drive vertical axis of treatment tower, the drive vertical axis outside corresponds the fixed cover of treatment tower top position department and has connect mixed awl cover, the utility model discloses a mixed awl cover intercepts the leading-in sewage of sewage conveyer pipe water conservancy diversion, makes sewage can and abundant mixing between the medicament, changes the board through the cloth and to the sewage interception reposition of redundant personnel from mixed awl cover portion flow direction to the process distribution that makes sewage flow down is more even, and the mixing efficiency between effectual improvement sewage and the medicament has improved the speed that the precipitate generated, and then has improved sewage treatment's efficiency.

Description

A retrieval and utilization equipment for nickeliferous waste water

Technical Field

The utility model relates to a sewage treatment technical field specifically is a retrieval and utilization equipment for nickeliferous waste water.

Background

The nickel content of common wastewater is generally as follows: the method comprises the following steps of (1) chemical nickel plating wastewater, circuit board nickel-containing wastewater, nickel electroplating wastewater and the like, wherein the nickel-containing wastewater can be divided into two types according to different forms of nickel ions in water, wherein the nickel ions are in a single ionic state and a complex complexing state, treatment methods under different forms are different, and recycling equipment of the nickel-containing wastewater is required to be used in the nickel-containing wastewater treatment process;

but present retrieval and utilization equipment is in the use, owing to lack corresponding supplementary mixed structure, leads to that the mixing efficiency is low between waste water and the processing medicine to make the nickel in the waste water can't fully react with the medicine and produce the sediment, and then reduced the treatment effeciency of nickel-containing waste water.

SUMMERY OF THE UTILITY MODEL

The utility model provides a retrieval and utilization equipment for nickeliferous waste water can effectively solve the retrieval and utilization equipment that proposes in the above-mentioned background art in the use, owing to lack corresponding supplementary mixed structure, leads to waste water and handles the mixing efficiency low between the medicine to make the nickel in the waste water can't fully react with the medicine and produce the sediment, and then reduced the problem of the treatment effeciency of nickeliferous waste water.

In order to achieve the above object, the utility model provides a following technical scheme: a recycling device for nickel-containing wastewater comprises an installation base, wherein a treatment tower is fixedly installed in the middle of the top end of the installation base, and a uniform mixing and distributing mechanism is arranged at the top of the treatment tower;

the uniform mixing and distributing mechanism comprises a driving motor, a driving vertical shaft, a mixing conical cover, a material adding rotating hopper, a sewage conveying pipe, a liquid adding thin pipe and a distributing rotating plate;

the utility model discloses a processing tower, including processing tower top, driving motor output shaft, processing tower, mixing cone cover, sewage conveyer pipe, liquid filling tubule, there is driving motor at processing tower top middle part through mounting bracket fixed mounting, driving motor supplies power through external power source, driving motor output shaft bottom corresponds the inboard position department fixedly connected with drive vertical axis of processing tower, the drive vertical axis outside corresponds the fixed cover of processing tower top position department and has mixed awl cover, the mixed awl covers top fixedly connected with of portion adds the material and changes the fill, processing tower top one side corresponds mixed awl cover one side position department and runs through and installs sewage conveyer pipe, processing tower top opposite side corresponds to add the material and changes fill top position department and run through and install the liquid filling tubule, the drive vertical axis outside corresponds mixed awl cover bottom position department fixed mounting and has the cloth commentaries on classics board.

Preferably, the inclined plane of the top of the mixing cone cover is uniformly provided with a liquid guide groove, the liquid guide groove penetrates through the bottom of the material adding rotating hopper, the liquid outlet of the sewage conveying pipe is positioned at the top of the mixing cone cover, and the liquid outlet of the liquid adding thin pipe is positioned at the top of the material adding rotating hopper.

Preferably, the bottom of the driving vertical shaft is provided with a flow guiding stirring mechanism;

the diversion stirring mechanism comprises a central distribution circular plate, an edge diffusion plate, an installation central sleeve, a stirring plate, a flexible scraper and a stirring paddle;

the even fixedly connected with center of the equal distance of cloth commentaries on classics board bottom position department of drive vertical axis outside correspondence, the inboard equal fixed mounting of the corresponding center of center distribution plectane bottom position department of treatment tower has the edge diffuser plate, the fixed cover of position department has been cup jointed at the drive vertical axis outside correspondence between central distribution plectane and the edge diffuser plate installation center, installation center overlaps side middle part and has the stirring board along circumferencial direction equidistance fixed mounting, stirring board bottom one end has flexible scraper blade through the connecting strip bonding, drive vertical axis outside bottom fixed mounting has the stirring rake.

Preferably, the central distribution circular plate and the edge diffusion plate are distributed in a staggered manner, and the bottom surface of the flexible scraper is tightly attached to the top end of the edge diffusion plate in a sliding manner.

Preferably, a precipitation separation mechanism is arranged at the bottom of the treatment tower;

the precipitation separation mechanism comprises an intercepting hopper, an upper layer liquid pumping pipe, a transfer pump, a transfer pipe, a liquid storage tank, an intercepting arc-shaped net and a liquid drainage bottom pipe;

the utility model discloses a pipeline transportation device, including a processing tower, a transfer pump, a power supply, a transportation pump, a connecting plate fixedly connected with transfer pipe, the inboard fixedly connected with interception fill of stirring rake bottom position department of corresponding of processing tower is fought, processing tower one side corresponds interception fill top position department fixedly connected with upper liquid suction pipe, there is the transfer pump bottom processing tower one side bottom through the pipe installation, the transfer pump supplies power through the power, transfer pump one end fixedly connected with transfer pipe, transfer pipe end bottom is through connecting plate fixedly connected with liquid reserve tank, interception arc net is installed in the inboard top embedding of liquid reserve tank, flowing back bottom tube is installed in liquid reserve tank one side bottom middle part embedding.

Preferably, the upper liquid pumping pipe output end is connected with external pumping equipment, the flowing back bottom tube output end is connected with external pumping equipment, the transfer pipe export is located interception arc net top middle part.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. the homogeneous mixing cloth mechanism has been set up, inside transporting waste water to the treatment tower through sewage delivery pipe, will handle inside the medicament transports the treatment tower through adding the liquid tubule, and it rotates in step to drive each subassembly on the drive vertical axis through driving motor in step, it rotates to transport its inside medicament through adding the liquid tubule to change the fill drive through adding the material, and pass through even the arranging of liquid guide groove with the liquid medicine at pivoted in-process and mix the awl cover top, through mixing the awl cover and carrying out the interception water conservancy diversion to sewage delivery pipe leading-in sewage, make sewage can and abundant mixture between the medicament, it shunts to the sewage interception from mixing the awl cover edge portion flow direction to change the board through the cloth, thereby make the process distribution under the sewage stream more even, the mixing efficiency between effectual improvement sewage and the medicament, the speed that the precipitate generated has been improved, and then sewage treatment's efficiency has been improved.

2. Set up water conservancy diversion rabbling mechanism, it distributes the plectane and installs the center cover and rotate in step to drive the center through the drive vertical axis, distribute plectane and edge diffuser plate through pivoted center and carry out crisscross water conservancy diversion to sewage, the effectual flow path who improves sewage, through stirring the board to the sewage of flow in-process supplementary stirring, further improve the mixing velocity between sewage and the medicament, scrape through flexible scraper blade fixed edge diffuser plate top and wipe away, thereby the effectual deposit that prevents gathers at edge diffuser plate top, it rotates to drive through the stirring rake treatment sewage bottom, thereby the deposit in the bottom sewage of acceleration treatment tower gathers to bottom center, further improved the efficiency that deposits in the sewage and generate, the process of sewage has been optimized.

3. Set up sedimentation separation mechanism, carry out simple isolation to treatment column bottom through the interception fill, prevent the precipitate upflow of treatment column bottom, take out the comparatively clarified sewage in interception fill top through upper liquid suction pipe, so as to carry out subsequent processing to sewage, take out the more sewage in interception fill bottom precipitate through the transfer pump, and transport sewage to the liquid reserve tank top through the transfer pipe, the sewage at the liquid reserve tank top passes the in-process that interception arc net got into the liquid reserve tank inside, carry out interception row to liquid reserve tank one side through interception arc net to the precipitate, take out the comparatively clarified sewage after filtering through the flowing back bottom pipe in order to carry out subsequent processing, the process of precipitate separation in the sewage has been optimized, sewage treatment's efficiency has further been improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the uniform mixing and distributing mechanism of the present invention;

fig. 3 is a schematic structural view of the diversion stirring mechanism of the present invention;

FIG. 4 is a schematic structural view of the precipitation separation mechanism of the present invention;

reference numbers in the figures: 1. installing a base; 2. a treatment tower;

3. a uniform mixing and distributing mechanism; 301. a drive motor; 302. driving the vertical shaft; 303. a hybrid cone cover; 304. adding a material and turning a hopper; 305. a sewage conveying pipe; 306. a liquid adding thin tube; 307. a cloth rotating plate;

4. a diversion stirring mechanism; 401. a central distribution circular plate; 402. an edge diffuser plate; 403. installing a central sleeve; 404. stirring the plate; 405. a flexible scraper; 406. a stirring paddle;

5. a precipitation separation mechanism; 501. intercepting a bucket; 502. an upper layer liquid pumping pipe; 503. a transfer pump; 504. a transfer pipe; 505. a liquid storage tank; 506. intercepting the arc-shaped net; 507. a liquid drainage bottom pipe.

Detailed Description

The preferred embodiments of the present invention will be described hereinafter with reference to the accompanying drawings, and it should be understood that the preferred embodiments described herein are merely for purposes of illustration and explanation, and are not intended to limit the present invention.

Example (b): as shown in fig. 1-4, the utility model provides a technical scheme, a recycling device for nickel-containing wastewater, which comprises an installation base 1, a treatment tower 2 is fixedly installed in the middle of the top end of the installation base 1, and a uniform mixing and distributing mechanism 3 is arranged at the top of the treatment tower 2;

the uniform mixing and distributing mechanism 3 comprises a driving motor 301, a driving vertical shaft 302, a mixing conical cover 303, a material adding rotary hopper 304, a sewage conveying pipe 305, a liquid adding thin pipe 306 and a distributing rotary plate 307;

a driving motor 301 is fixedly installed in the middle of the top end of the treatment tower 2 through an installation frame, the driving motor 301 supplies power through an external power supply, a driving vertical shaft 302 is fixedly connected to the bottom end of an output shaft of the driving motor 301 corresponding to the inner side of the treatment tower 2, a mixing cone cover 303 is fixedly sleeved on the outer side of the driving vertical shaft 302 corresponding to the top of the treatment tower 2, a feeding rotating hopper 304 is fixedly connected to the top edge of the mixing cone cover 303, a sewage conveying pipe 305 is installed at one side of the top of the treatment tower 2 corresponding to one side of the mixing cone cover 303 in a penetrating manner, a liquid adding thin pipe 306 is installed at the other side of the top of the treatment tower 2 corresponding to the top of the feeding rotating hopper 304 in a penetrating manner, a material distributing rotating plate 307 is fixedly installed at the outer side of the driving vertical shaft 302 corresponding to the bottom of the mixing cone cover 303, liquid guide grooves are uniformly formed in the inclined plane of the top of the mixing cone cover 303 and penetrate through the bottom of the feeding rotating hopper 304, and a liquid outlet of the sewage conveying pipe is located at the top of the mixing cone cover 305, the liquid outlet of the liquid adding thin pipe 306 is positioned at the top of the liquid adding rotating hopper 304, wastewater is transported to the inside of the treatment tower 2 through the sewage transport pipe 305, treatment chemicals are transported to the inside of the treatment tower 2 through the liquid adding thin pipe 306, the driving motor 301 synchronously drives the vertical shaft 302 to synchronously rotate all components thereon, the liquid adding rotating hopper 304 drives the chemicals transported to the inside through the liquid adding thin pipe 306 to rotate, the chemicals are uniformly distributed to the top of the mixing conical cover 303 through the liquid guide groove in the rotating process, the sewage led in by the sewage transport pipe 305 is intercepted and guided through the mixing conical cover 303, so that the sewage can be fully mixed with the chemicals, the sewage flowing from the edge of the mixing conical cover 303 is shunted through the distributing rotating plate 307, the process distribution under the sewage flow is more uniform, and the mixing efficiency between the sewage and the chemicals is effectively improved, the generation rate of the precipitate is improved, and the sewage treatment efficiency is further improved;

the bottom of the driving vertical shaft 302 is provided with a flow guiding stirring mechanism 4;

the diversion stirring mechanism 4 comprises a central distribution circular plate 401, an edge diffusion plate 402, a mounting central sleeve 403, a stirring plate 404, a flexible scraper 405 and a stirring paddle 406;

a central distribution circular plate 401 is uniformly and fixedly connected with the outer side of the driving vertical shaft 302 at an equal distance corresponding to the bottom position of the material distribution rotating plate 307, an edge diffusion plate 402 is uniformly and fixedly installed at the inner side of the treatment tower 2 at an equal distance corresponding to the bottom position of the central distribution circular plate 401, an installation central sleeve 403 is fixedly sleeved at the outer side of the driving vertical shaft 302 corresponding to the position between the central distribution circular plate 401 and the edge diffusion plate 402, stirring plates 404 are fixedly installed at the middle part of the side surface of the installation central sleeve 403 at an equal distance along the circumferential direction, a flexible scraper 405 is bonded at one end of the bottom of the stirring plate 404 through a connecting strip, a stirring paddle 406 is fixedly installed at the outer side of the driving vertical shaft 302, the central distribution circular plate 401 and the edge diffusion plate 402 are mutually staggered and distributed, the bottom surface of the flexible scraper 405 is tightly attached to the top end of the edge diffusion plate 402 in a sliding way, the vertical shaft 302 is driven to drive the central distribution circular plate 401 and the installation central sleeve 403 to synchronously rotate, sewage is guided in a staggered mode through the rotating central distribution circular plate 401 and the edge diffusion plate 402, the flow path of the sewage is effectively improved, the sewage in the flow process is stirred in an auxiliary mode through the stirring plate 404, the mixing speed between the sewage and a medicament is further improved, the top of the fixed edge diffusion plate 402 is scraped through the flexible scraper plate 405, so that precipitates are effectively prevented from being gathered at the top of the edge diffusion plate 402, the sewage at the bottom of the treatment tower 2 is driven to rotate through the stirring paddle 406, the gathering of the precipitates in the sewage at the bottom of the treatment tower 2 to the center of the bottom is accelerated, the precipitation generation efficiency in the sewage is further improved, and the sewage treatment process is optimized;

the bottom of the treatment tower 2 is provided with a precipitation separation mechanism 5;

the precipitation separation mechanism 5 comprises an intercepting bucket 501, an upper layer liquid pumping pipe 502, a transfer pump 503, a transfer pipe 504, a liquid storage tank 505, an intercepting arc-shaped net 506 and a liquid drainage bottom pipe 507;

the inner side of the treatment tower 2 is fixedly connected with an intercepting hopper 501 corresponding to the bottom of the stirring paddle 406, one side of the treatment tower 2 is fixedly connected with an upper layer liquid pumping pipe 502 corresponding to the top of the intercepting hopper 501, the bottom of one side of the treatment tower 2 is provided with a transfer pump 503 through a pipeline, the transfer pump 503 is powered by a power supply, one end of the transfer pump 503 is fixedly connected with a transfer pipe 504, the bottom of the tail end of the transfer pipe 504 is fixedly connected with a liquid storage tank 505 through a connecting plate, the top end of the inner side of the liquid storage tank 505 is embedded and installed with an intercepting arc net 506, the middle part of the bottom end of one side of the liquid storage tank 505 is embedded and installed with a liquid drainage bottom pipe 507, the output end of the upper layer liquid pumping pipe 502 is connected with external water pumping equipment, the output end of the liquid drainage bottom pipe 507 is connected with the external water pumping equipment, and the outlet of the transfer pipe 504 is positioned at the middle part of the top end of the intercepting arc net 506, carry out simple isolation to treatment tower 2 bottom through intercepting fill 501, prevent that the precipitate of treatment tower 2 bottom from upwards flowing, the comparatively clarified sewage in intercepting fill 501 top is taken out through upper liquid suction pipe 502, so that carry out subsequent processing to sewage, take out the more sewage of intercepting fill 501 bottom precipitate through transporting pump 503, and transport sewage to liquid reserve tank 505 top through transporting pipe 504, the sewage at liquid reserve tank 505 top passes intercepting arc net 506 and gets into the inside in-process of liquid reserve tank 505, intercept the sediment through intercepting arc net 506 and arrange to liquid reserve tank 505 one side, take out comparatively clarified sewage after filtering through flowing back bottom tube 507 in order to carry out subsequent processing, the process of precipitate separation in the sewage has been optimized, sewage treatment's efficiency has further been improved.

The utility model discloses a theory of operation and use flow: the utility model discloses in the practical application in-process, in the in-process of handling nickeliferous waste water through recycling equipment, transport waste water to treatment tower 2 inside through sewage delivery pipe 305, will handle inside the medicament transports treatment tower 2 through adding liquid tubule 306, and drive each subassembly on it of drive vertical axis 302 through driving motor 301 in step and rotate in step, it rotates to drive its inside medicament via adding liquid tubule 306 through adding material rotary hopper 304, and arrange the liquid medicine to mix the conical cover 303 top through the liquid guide groove is even in the pivoted in-process, intercept the water conservancy diversion through mixing conical cover 303 to the leading-in sewage of sewage delivery pipe 305, make sewage can and the abundant mixing between the medicament, it intercepts to the sewage reposition of following mixing conical cover 303 limit portion flow direction through cloth commentaries on classics board 307, thereby make the process distribution of sewage flow down more even, the mixing efficiency between effectual improvement sewage and the medicament, the speed that the precipitate generated has improved, and then the efficiency of sewage treatment has been improved;

in the process of continuously flowing downwards through the material distribution rotating plate 307, the vertical shaft 302 is driven to drive the central distribution circular plate 401 and the installation central sleeve 403 to synchronously rotate, sewage is guided in a staggered mode through the rotating central distribution circular plate 401 and the edge diffusion plate 402, the flow path of the sewage is effectively improved, the sewage in the flowing process is subjected to auxiliary stirring through the stirring plate 404, the mixing speed between the sewage and a medicament is further improved, the top of the fixed edge diffusion plate 402 is scraped through the flexible scraper 405, so that precipitates are effectively prevented from being accumulated at the top of the edge diffusion plate 402, the sewage at the bottom of the treatment tower 2 is driven to rotate through the stirring paddle 406, the accumulation of the precipitates in the sewage at the bottom of the treatment tower 2 to the center of the bottom is accelerated, the precipitation generation efficiency in the sewage is further improved, and the treatment process of the sewage is optimized;

after the sediment at the bottom of the treatment tower 2 is gathered for a period of time, the bottom of the treatment tower 2 is simply isolated through the intercepting hopper 501, the upward flow of the sediment at the bottom of the treatment tower 2 is prevented, the clarified sewage at the top of the intercepting hopper 501 is pumped through the upper-layer liquid pumping pipe 502, so that the subsequent treatment of the sewage is conveniently carried out, the more sewage at the bottom of the intercepting hopper 501 is pumped through the transfer pump 503, the sewage is transported to the top of the liquid storage tank 505 through the transfer pipe 504, the sewage at the top of the liquid storage tank 505 passes through the intercepting arc-shaped net 506 to enter the inside of the liquid storage tank 505, the sediment is intercepted and discharged to one side of the liquid storage tank 505 through the intercepting arc-shaped net 506, the clarified sewage after filtration is pumped through the liquid drainage bottom pipe 507 so as to carry out the subsequent treatment, the process of sediment separation in the sewage is optimized, and the efficiency of the sewage treatment is further improved.

Finally, it should be noted that: 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 modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a retrieval and utilization equipment for nickeliferous waste water, includes installation base (1), its characterized in that: a treatment tower (2) is fixedly arranged in the middle of the top end of the mounting base (1), and a uniform mixing and distributing mechanism (3) is arranged at the top of the treatment tower (2);

the uniform mixing and distributing mechanism (3) comprises a driving motor (301), a driving vertical shaft (302), a mixing conical cover (303), a material adding rotating hopper (304), a sewage conveying pipe (305), a liquid adding thin pipe (306) and a distributing rotating plate (307);

handle tower (2) top middle part and have driving motor (301) through mounting bracket fixed mounting, driving motor (301) are supplied power through external power source, driving motor (301) output shaft bottom corresponds and handles tower (2) inboard position department fixedly connected with drive vertical axis (302), the drive vertical axis (302) outside corresponds and handles tower (2) top position department fixed the cup joint and has mixed awl cover (303), mix awl cover (303) top limit fixedly connected with add the material and change fill (304), it runs through and installs sewage delivery pipe (305) to handle that tower (2) top one side corresponds mixed awl cover (303) one side position department, it changes fill (304) top position department and runs through and install liquid adding (306) to handle tower (2) top opposite side correspondence, drive vertical axis (302) outside corresponds mixed awl cover (303) bottom position department fixed mounting and has the cloth to change board (307).

2. The recycling apparatus for nickel-containing wastewater according to claim 1, wherein the inclined top surface of the mixing cone cover (303) is uniformly provided with a liquid guiding groove, the liquid guiding groove penetrates through the bottom of the charging rotating hopper (304), the liquid outlet of the sewage conveying pipe (305) is located at the top of the mixing cone cover (303), and the liquid outlet of the liquid charging narrow pipe (306) is located at the top of the charging rotating hopper (304).

3. The recycling equipment for nickel-containing wastewater according to claim 1, characterized in that the bottom of the driving vertical shaft (302) is provided with a diversion stirring mechanism (4);

the flow guide stirring mechanism (4) comprises a central distribution circular plate (401), an edge diffusion plate (402), an installation central sleeve (403), a stirring plate (404), a flexible scraper blade (405) and a stirring paddle (406);

the utility model discloses a material distributing device, including drive vertical shaft (302), processing tower (2), the inboard cloth that corresponds in the drive vertical shaft (302) outside changes board (307) bottom position department equidistance even fixedly connected with center distribution plectane (401), the inboard center distribution plectane (401) bottom position department equidistance even fixed mounting has edge diffuser plate (402) of corresponding in the drive vertical shaft (302) outside, the fixed installation center cover (403) that has cup jointed of position department between corresponding center distribution plectane (401) and edge diffuser plate (402), installation center cover (403) side middle part has stirring board (404) along circumferencial direction equidistance fixed mounting, stirring board (404) bottom one end bonds through the connecting strip has flexible scraper blade (405), drive vertical shaft (302) outside bottom fixed mounting has stirring rake (406).

4. The recycling equipment for nickel-containing wastewater according to claim 3, wherein the central distribution circular plate (401) and the edge diffuser plate (402) are distributed in a staggered manner, and the bottom surface of the flexible scraper (405) is in close sliding fit with the top end of the edge diffuser plate (402).

5. The recycling equipment for nickel-containing wastewater according to claim 3, characterized in that the bottom of the treatment tower (2) is provided with a precipitation separation mechanism (5);

the sedimentation separation mechanism (5) comprises an intercepting hopper (501), an upper layer liquid pumping pipe (502), a transfer pump (503), a transfer pipe (504), a liquid storage box (505), an intercepting arc-shaped net (506) and a liquid drainage bottom pipe (507);

handle tower (2) inboard and correspond stirring rake (406) bottom position fixedly connected with interception fill (501), handle tower (2) one side corresponds interception fill (501) top position fixedly connected with upper liquid suction pipe (502), handle tower (2) one side bottom has transportation pump (503) through the pipe installation, transportation pump (503) are supplied power through the power, transportation pump (503) one end fixedly connected with transportation pipe (504), transportation pipe (504) terminal bottom is through connecting plate fixedly connected with liquid reserve tank (505), interception arc net (506) are installed in the embedding of liquid reserve tank (505) inboard top, flowing back bottom tube (507) is installed in the embedding of liquid reserve tank (505) one side bottom middle part.

6. The recycling equipment for nickel-containing wastewater as claimed in claim 5, wherein the output end of the upper layer liquid suction pipe (502) is connected with an external water pumping device, the output end of the liquid discharge bottom pipe (507) is connected with the external water pumping device, and the outlet of the transfer pipe (504) is located in the middle of the top end of the intercepting arc-shaped net (506).

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