CN113754207A

CN113754207A - Prevent blockking up waste water recovery filtration equipment of fish shrimp plant

Info

Publication number: CN113754207A
Application number: CN202111239876.8A
Authority: CN
Inventors: 任鸣春; 梁化亮; 戈贤平; 习丙文; 刘波; 谢骏; 缪凌鸿; 周群兰
Original assignee: Freshwater Fisheries Research Center of Chinese Academy of Fishery Sciences
Current assignee: Freshwater Fisheries Research Center of Chinese Academy of Fishery Sciences
Priority date: 2021-10-25
Filing date: 2021-10-25
Publication date: 2021-12-07

Abstract

The invention provides a device for recycling and filtering wastewater of a fish and shrimp farm, which relates to the technical field of aquaculture and comprises the following components: the horizontal rack, the bottom of the left side and the right side of the horizontal rack is provided with edge wheels through hinge connection, the bottom of the horizontal rack is fixedly connected with supporting square rods, the supporting square rods are transversely arranged and fixedly connected with the bottom of the horizontal rack, two groups of hinged plates A are arranged between the supporting square rods at intervals, the front ends of the groups of hinged plates A are connected through hinges, the bottom of the hinged plates A is fixedly connected with a ground hairbrush, the servo motor is controlled by a control part to operate in a matched mode, the horizontal rack and the vertical rack are controlled to translate in a reciprocating mode, residual waste materials deposited at the bottom of the culture pond can be repeatedly erased, the servo motor is controlled by the control part to operate intermittently, an auger rod can be made to rotate, the waste materials inside a sewage discharge outlet can be transmitted to the outside, the waste materials stacked at the bottom of the pond can be removed to the maximum degree, and the problem that the traditional filtering equipment cannot effectively remove the waste materials stacked at the bottom of the pond is solved.

Description

Prevent blockking up waste water recovery filtration equipment of fish shrimp plant

Technical Field

The invention relates to the technical field of aquaculture, in particular to anti-blocking fish and shrimp farm wastewater recycling and filtering equipment.

Background

The main pollutants in the aquaculture wastewater comprise ammonia nitrogen, nitrite, organic pollutants, phosphorus and fouling organisms, different from industrial and domestic sewage, the requirement of the aquatic organisms on water quality is high, the ammonia nitrogen and hydrogen sulfide are the most common harmful substances in the seedling raising water body, the ammonia nitrogen is the excrement of the aquatic organisms and is also the final product of the decomposition of nitrogenous organic matters such as residual baits, excrement and animal and plant corpses.

So need regularly handle the inside sedimentary incomplete bait excrement and urine of breed pond to prevent that it from producing ammonia nitrogen pollution water quality, need one kind at present and can carry out waste water recovery filterable equipment to fish and shrimp plant regularly.

Disclosure of Invention

In view of the above, the invention provides an anti-clogging waste water recycling and filtering device for a fish and shrimp farm, which is provided with a hinged plate, can control a servo motor to operate in a matched manner through a control part, can repeatedly erase waste materials left by sedimentation at the bottom of a culture pond by controlling a transverse frame and a longitudinal frame to move in a reciprocating manner, can remove the waste materials accumulated at the bottom of the pond in a high-strength manner, and can be conveyed outwards through a fertilizer processing conveyor belt after solid-liquid separation, so that organic fertilizer processing can be conveniently carried out on the waste materials.

The invention provides anti-blocking fish and shrimp farm wastewater recycling and filtering equipment, which specifically comprises the following steps: a culture pond and a wastewater tank;

the top parts of the edges of the front side and the rear side of the culture pond are fixedly connected with a fixed frame, the top part of the fixed frame is provided with a transverse chain through hinge connection, the top part of the transverse chain is fixedly connected with a fixed seat, the side surface of the fixed seat is fixedly connected with a vertical frame, the outer side of the fixed frame is fixedly connected with a servo motor A, and a gear at a rotating shaft of the servo motor A is in meshing transmission with the transverse chain;

the bottom of the vertical frame is fixedly connected with a transverse frame, the bottoms of the left side and the right side of the transverse frame are provided with edge wheels through hinges, the bottom surface of the transverse frame is fixedly connected with supporting square rods, the supporting square rods are transversely arranged and fixedly connected with the bottom surface of the transverse frame, two groups of hinged plates A are arranged between every two groups of the supporting square rods through hinges, and the bottoms of the hinged plates A are fixedly connected with ground brushes;

the top of the left edge of the culture pond is provided with a longitudinal chain through hinge connection, the top of the left edge of the culture pond is fixedly connected with a servo motor B, the servo motor B and the longitudinal chain are in meshed transmission, the top of the longitudinal chain is fixedly connected with a longitudinal frame, and the rear vertical face of the top of the longitudinal frame is provided with a hinged plate B through hinge connection.

Optionally, a drain outlet penetrates through the left side of the bottom of the culture pond, and the tail end of the outer side of the drain outlet inclines upwards by forty-five degrees.

Optionally, the number of the culture ponds is set to two, the waste water grooves are located on the inner sides of the two groups of culture ponds, a net type conveyor belt is arranged on the inner side of the top of each waste water groove through hinged connection, a material collecting funnel is fixedly connected to the inner side of each waste water groove and located at the bottom of the rear end of the net type conveyor belt, and an arc-shaped protection plate is fixedly connected to the top of the material collecting funnel.

Optionally, a solid-liquid separator is fixedly connected to the bottom of the material receiving funnel, the left side and the right side of the solid-liquid separator are fixed to the inner wall of the waste water tank, a side opening groove transversely penetrates through the right side of the waste water tank, a fertilizer processing conveyor belt is fixedly connected to the bottom of the inner side of the side opening groove, and the fertilizer processing conveyor belt is located at the bottom of the rear side of the solid-liquid separator.

Optionally, an outer fixed frame is arranged on the inner side of the wastewater tank through sliding connection, a handle is fixedly connected to the top of the outer fixed frame, a screen plate is fixedly connected to the inner side of the outer fixed frame, and a bottom baffle is fixedly connected to the bottom of the outer fixed frame.

Optionally, an ultraviolet lamp tube is fixedly connected to the inner side of the waste water tank, and the ultraviolet lamp tube is located on the rear side of the outer fixed frame.

Optionally, waste water tank top fixedly connected with arranges the material fork, arranges material fork outside fixedly connected with blow off pipe, and blow off pipe bottom fixed connection is inboard in the drain, and blow off pipe top fixedly connected with servo motor C, servo motor C bottom are provided with through coaxial coupling stirs the dragon pole, and the screw rod hinge is connected in the blow off pipe inboard.

Optionally, the rear end of the wastewater tank is fixedly connected with a recovery part, the right side of the recovery part is fixedly connected with a control part, and a PLC control system is arranged in the control part.

Optionally, the left end of the inner side of the recovery part is fixedly connected with a recovery pump, the left end of the recovery pump is connected with a wastewater tank, the top of the recovery pump is provided with a filter screen pipe through pipeline connection, the right end of the filter screen pipe is provided with a protein separator through pipeline connection, the front side of the protein separator is provided with a jet pump through flange connection, and the bottom of the right side of the jet pump is provided with a water inlet valve through flange connection.

Optionally, an ozone generator is fixedly connected to the front side inside the recovery part, the ozone generator is connected with the protein separator through a pipeline, a check valve is arranged inside a drainage pipe at the right end of the protein separator through a flange connection, a return pipe is arranged at the right end of the check valve through a flange connection, and the return pipe is fixedly connected to the inner side of the culture pond.

Advantageous effects

Compared with the traditional device, the filtering device of each embodiment of the invention can control the timing to recycle the waste water through the control part, can enable the control part to control two groups of servo motors A positioned at the top of the culture pond to synchronously operate, can enable the servo motors A to drive the transverse chain to drive, thereby enabling the top fixing seat of the transverse chain to drive the vertical frame at the bottom of the transverse chain to horizontally move at the bottom of the culture pond, enabling the transverse frame to horizontally move to the left side, enabling the hinged plate A and the transverse frame to be kept horizontal through the limit of the outer side of the hinged plate A and the front end vertical face of the adjacent supporting square rod, enabling the hinged plate A to push the excrement and bait accumulated at the bottom of the culture pond, enabling the hinged plate A to push the excrement and the bait to the left side of the culture pond, and enabling the servo motors B to drive the longitudinal chain to drive to horizontally move from back to front through the control part to control the servo motors B to operate after the transverse frame horizontally moves to the left end of the inner side of the culture pond, the rear end vertical face of the hinged plate B is limited with the front end vertical face of the longitudinal frame, so that the hinged plate B can keep an angle with the left side vertical face of the culture pond to be vertical in the forward translation process, waste materials accumulated on the left side of the bottom of the culture pond can be pushed to the position of the front end of the left side of the culture pond, the waste materials can be accumulated at the position of a sewage discharge outlet, after the hinged plate B translates to the right side of the sewage discharge outlet, the servo motor C is controlled by the servo of the control part to operate intermittently, the screw feeder rod can rotate, the waste materials on the inner side of the sewage discharge outlet can be conveyed to the outer side, and the waste materials can be prevented from being blocked; when the servo motor C stops running intermittently, the servo motor A is controlled to rotate reversely by the control part, the transverse frame can be driven to translate rightwards, in the process of translating rightwards by the transverse frame, the hinged plate A can be overturned to the left side through the water flow resistance effect, the hinged plate A can be vertical to the transverse frame, residual waste materials in the translation process can be left between the supporting square rods, meanwhile, the servo motor B is controlled to rotate reversely by the control part, after the longitudinal frame and the transverse frame are reset, the servo motor is controlled to operate in a matched mode by the control part, the reciprocating translation of the transverse frame and the longitudinal frame is controlled, the residual waste materials deposited at the bottom of the culture pond can be repeatedly erased, and the waste materials stacked at the bottom of the pond can be removed at high strength.

In addition, through setting up solid-liquid separation machine, after the waste material of breeding the pond inside passes through the blow off pipe and transmits its inboard top, can arrange the net formula conveyer belt top with the waste material through arranging material fork pipe, can filter the excrement and urine bait that density is great through the net formula conveyer belt, transmit through the net formula conveyer belt, can transmit the waste material to solid-liquid separation machine inside, through the operation of solid-liquid separation machine, can discharge waste material inside moisture downwards, can carry out the solid-liquid separation to organic waste material and handle, can separate the large granule residue, be convenient for improve the purification efficiency to remaining waste water.

In addition, through setting up the wastewater disposal tank, through the operation of solid-liquid separation machine, can carry out the downflow with the inside moisture of waste material, can make the inside waste water of waste material discharge in the wastewater disposal tank bottom, the waste material is discharged through the solid-liquid separation machine rear side after carrying out the waterlogging caused by excessive rainfall, can make it drop at fertilizer processing conveyer belt top, through the operation of fertilizer processing conveyer belt, can discharge the wastewater disposal tank with solid organic matter, be convenient for carry out fertilizer compost processing to it, improved the utilization ratio of organic waste material.

In addition, through setting up the screen cloth board, after the waste water after the separation backward flows, can carry out the secondary filter through the screen cloth board, pile up behind the screen cloth board front side as solid residue, accept through end baffle, can take out the residue through upwards carrying the handle, be convenient for carry out manual extraction to the residue in the waste water after filtering.

In addition, through setting up the protein separator, make and be located the waste water after the screen cloth board rear side ground filters can carry out germicidal treatment through ultraviolet tube, through the operation of control unit control recovery pump, can be with the filterable waste water of screen cloth board rear side to the inside transmission of recovery unit, can make waste water transmission filter inside the filter screen pipe, waste water after the filtration gets into the inside purification that can of protein separator through the pipeline, the protein separator operation back, can stabilize the pH value, increase water dissolved oxygen, reduce ammonia nitrogen sub-salt, organic matters such as residual bait excrement and urine in the separation aquatic.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic diagram of an overall top-view perspective of a filtration apparatus according to an embodiment of the invention;

FIG. 2 shows an enlarged, partial schematic view of A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 shows an enlarged partial schematic view of B of FIG. 1 according to an embodiment of the present invention;

FIG. 4 illustrates a partially enlarged schematic view of C in FIG. 1, according to an embodiment of the invention;

FIG. 5 shows a schematic view of an overall rear side three-dimensional structure of a filter device according to an embodiment of the invention;

FIG. 6 illustrates a partially enlarged schematic view of D of FIG. 5, in accordance with embodiments of the present invention;

FIG. 7 shows a schematic view of a bottom perspective of a cross frame of a filtration apparatus according to an embodiment of the present invention;

FIG. 8 shows a schematic view of the overall right side perspective of a filtration apparatus according to an embodiment of the present invention;

FIG. 9 illustrates a partially enlarged schematic view of F in FIG. 8, in accordance with embodiments of the present invention;

FIG. 10 shows an enlarged, partial schematic view of G of FIG. 1 according to an embodiment of the present invention;

figure 11 shows a schematic view of a cross-sectional bottom perspective of a drain of a filtration apparatus according to an embodiment of the present invention;

FIG. 12 shows a schematic diagram of a side sectional perspective of a sump of a filtration apparatus according to an embodiment of the invention;

fig. 13 shows a schematic view of a three-dimensional structure of a screen plate of a filtering apparatus according to an embodiment of the present invention;

FIG. 14 shows a schematic diagram of a side sectional perspective structure of a recovery section of a filtration apparatus according to an embodiment of the invention;

list of reference numerals

1. A culture pond;

101. a fixed mount; 102. a transverse chain; 1021. a fixed seat; 1022. a vertical frame; 103. a servo motor A; 104. a transverse rack; 1041. an edge wheel; 105. supporting the square rod; 1051. a hinged plate A; 1052. a ground brush; 106. a sewage draining outlet;

2. longitudinally arranging a chain;

201. longitudinally arranging a frame; 2011. a hinge plate B; 202. a servo motor B;

3. a wastewater tank;

301. a mesh conveyor belt; 302. a receiving hopper; 303. an arc-shaped guard plate; 304. a solid-liquid separator; 305. side grooving; 3051. a fertilizer processing conveyor belt; 306. a screen plate; 3061. an outer fixed frame; 3062. a bottom baffle; 307. an ultraviolet lamp tube;

4. a discharge branch pipe;

401. a blow-off pipe; 402. a servo motor C; 4021. stirring a screw rod;

5. a recovery unit;

501. a control unit; 502. a recovery pump; 503. a filter screen pipe; 504. a protein separator; 5041. a jet pump; 5042. a one-way valve; 5043. a return pipe; 505. an ozone generator.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to 14:

the invention provides anti-blocking fish and shrimp farm wastewater recycling and filtering equipment, which comprises: a culture pond 1 and a wastewater tank 3; the top parts of the edges of the front side and the rear side of the culture pond 1 are fixedly connected with a fixed frame 101, the top part of the fixed frame 101 is provided with a transverse chain 102 through hinge connection, the top part of the transverse chain 102 is fixedly connected with a fixed seat 1021, the side surface of the fixed seat 1021 is fixedly connected with a vertical frame 1022, the outer side of the fixed frame 101 is fixedly connected with a servo motor A103, the electrical property of the servo motor A103 is connected with a control part 501, and a gear at the rotating shaft of the servo motor A103 is in meshing transmission with the transverse chain 102; the bottom of the vertical frame 1022 is fixedly connected with a transverse frame 104, the bottoms of the left side and the right side of the transverse frame 104 are provided with edge wheels 1041 through hinges, the bottom of the transverse frame 104 is fixedly connected with supporting square rods 105, the supporting square rods 105 are transversely arranged and fixedly connected with the bottom of the transverse frame 104, two groups of hinged plates A1051 are arranged between every two groups of the supporting square rods 105 through hinges, and the bottom of each hinged plate A1051 is fixedly connected with a floor brush 1052; the top of the left edge of the culture pond 1 is provided with a longitudinal chain 2 through hinge connection, the top of the left edge of the culture pond 1 is fixedly connected with a servo motor B202, a gear at a rotating shaft of the servo motor B202 is in meshing transmission with the longitudinal chain 2, the top of the longitudinal chain 2 is fixedly connected with a longitudinal frame 201, a hinge plate B2011 is arranged at the vertical surface of the rear side of the top of the longitudinal frame 201 through hinge connection, a drain outlet 106 penetrates through the left side of the bottom in the culture pond 1, the outer end of the drain outlet 106 inclines upwards for forty-five degrees, the control part 501 controls the timing to recover waste water, the control part 501 controls two groups of servo motors A103 at the top of the culture pond 1 to synchronously operate and drive the transverse chain 102 to transmit, so that a fixing seat 1021 at the top of the transverse chain 102 drives a vertical frame 1022 at the bottom of the transverse chain 102 to translate at the bottom of the culture pond 1, and the transverse frame 104 can translate leftwards, the hinged plate A1051 and the transverse frame 104 can be kept horizontal by limiting the outer side of the hinged plate A1051 and the front end vertical surface of the adjacent supporting square rod 105, the hinged plate A1051 can push excrement and bait accumulated at the bottom of the culture pond 1 to push the same to the left side of the culture pond 1, when the transverse frame 104 is translated to the left end of the inner side of the culture pond 1, the servo motor B202 is controlled by the control part 501 to operate, so that the servo motor B202 can drive the longitudinal chain 2 to transmit, so that the longitudinal frame 201 can be driven to translate from back to front, the hinged plate B2011 can limit the rear end vertical surface of the hinged plate B2011 and the front end vertical surface of the longitudinal frame 201, so that the hinged plate B2011 can keep an angle with the left side vertical surface of the culture pond 1 in the forward translation process, the hinged plate B2011 can push waste accumulated at the left side of the bottom of the culture pond 1 to the position of the front end of the left side of the culture pond 1, the waste can be accumulated at the position of the drain 106, and when the hinged plate B2011 translates to the right side of the drain 106, the control part 501 servo-controls the servo motor C402 to operate intermittently, so that the screw rod 4021 can rotate, the waste material inside the sewage draining exit 106 can be transported to the outside, when the servo motor C402 stops running intermittently, the servo motor A103 is controlled by the control part 501 to rotate reversely, can drive the transverse frame 104 to translate rightwards, when the transverse frame 104 translates rightwards, the hinged plate A1051 can turn towards the left side through the resistance of water flow, the hinge plate a1051 can be made perpendicular to the transversal shelf 104, allowing the scraps left during its translation to remain between the supporting square bars 105, at the same time, the control unit 501 controls the servo motor B202 to rotate reversely, so that after the vertical frame 201 and the horizontal frame 104 are reset, the control part 501 controls the servo motor to operate in a matching way, and the transverse frame 104 and the longitudinal frame 201 are controlled to move in a reciprocating way, so that the residual waste material of the sediment at the bottom of the culture pond 1 can be repeatedly erased.

As shown in fig. 12 and 14, a discharge branch pipe 4 is fixedly connected to the top of the wastewater tank 3, a discharge pipe 401 is fixedly connected to the outer side of the discharge branch pipe 4, the bottom of the discharge pipe 401 is fixedly connected to the inner side of the sewage outlet 106, a servo motor C402 is fixedly connected to the top of the discharge pipe 401, an auger rod 4021 is coaxially connected to the bottom of the servo motor C402, and the auger rod 4021 is hinged to the inner side of the discharge pipe 401; breed 1 quantity in pond and set up to two groups, wastewater disposal basin 3 is located 1 inboards in two sets of breed ponds, 3 top inboards in wastewater disposal basin are provided with net formula conveyer belt 301 through the hinge connection, 3 inboard fixedly connected with in wastewater disposal basin receive material funnel 302, receive material funnel 302 and be located net formula conveyer belt 301 rear end bottom, receive material funnel 302 top fixedly connected with arc backplate 303, breed 1 inside waste material in pond and transmit behind its inboard top through blow off pipe 401, can arrange net formula conveyer belt 301 top with the waste material through arranging material fork 4, can filter the great excrement and urine bait of density through net formula conveyer belt 301, transmit through net formula conveyer belt 301, can transmit waste material to solid-liquid separation machine 304 inside, through the operation of solid-liquid separation machine 304, can carry out the downward discharge with the inside moisture of waste material, can make the inside waste water discharge of waste material in wastewater disposal basin 3 bottoms.

As shown in fig. 12, a solid-liquid separator 304 is fixedly connected to the bottom of the material receiving funnel 302, the left and right sides of the solid-liquid separator 304 are fixed to the inner wall of the waste water tank 3, a side slot 305 transversely penetrates through the right side of the waste water tank 3, a fertilizer processing conveyor belt 3051 is fixedly connected to the bottom of the inner side of the side slot 305, the fertilizer processing conveyor belt 3051 is located at the bottom of the rear side of the solid-liquid separator 304, waste materials are drained and then discharged through the rear side of the solid-liquid separator 304, and can fall to the top of the fertilizer processing conveyor belt 3051, and the fertilizer processing conveyor belt 3051 is operated to discharge solid organic matters out of the waste water tank 3, so that organic fertilizer composting processing is conveniently performed on the waste materials.

As shown in fig. 13 and 12, an outer fixed frame 3061 is slidably connected to the inner side of the wastewater tank 3, a handle is fixedly connected to the top of the outer fixed frame 3061, a screen plate 306 is fixedly connected to the inner side of the outer fixed frame 3061, a bottom baffle 3062 is fixedly connected to the bottom of the outer fixed frame 3061, an ultraviolet lamp tube 307 is fixedly connected to the inner side of the wastewater tank 3, the ultraviolet lamp tube 307 is located at the rear side of the outer fixed frame 3061, the separated wastewater flows backwards and can be secondarily filtered through the screen plate 306, when the solid residue is accumulated at the front side of the screen plate 306, the solid residue can be received by the bottom baffle 3062, the residue can be taken out by pulling the handle upwards, and the filtered wastewater located at the rear side of the screen plate 306 can be sterilized by the ultraviolet lamp tube 307.

As shown in fig. 14, a recovery part 5 is fixedly connected to the rear end of a wastewater tank 3, a control part 501 is fixedly connected to the right side of the recovery part 5, a PLC control system is arranged in the control part 501, a recovery pump 502 is fixedly connected to the left end of the inner side of the recovery part 5, the left end of the recovery pump 502 is connected to the wastewater tank 3, a filter screen pipe 503 is connected to the top of the recovery pump 502 through a pipeline, a biological membrane is arranged in the filter screen pipe 503, a protein separator 504 is arranged at the right end of the filter screen pipe 503 through a pipeline connection, a jet pump 5041 is arranged at the front side of the protein separator 504 through a flange connection, a water inlet valve is arranged at the right bottom of the jet pump 5041 through a flange connection, an ozone generator 505 is fixedly connected to the front side of the recovery part 5, the ozone generator 505 is connected to the protein separator 504 through a pipeline connection, a check valve 5042 is arranged in the drainage pipe at the right end of the protein separator 504 through a flange connection, a return pipe 5043 is arranged at the right end of the check valve 5042 through a flange connection, return pipe 5043 fixed connection is inboard in aquaculture pond 1, through the operation of control unit 501 control recycle pump 502, can be with the filterable waste water of screen plate 306 rear side to 5 internal transmission of recovery unit, can make waste water transmission advance inside the filter screen pipe 503 and filter, the waste water after the filtration gets into protein separator 504 through the pipeline inside can purify, protein separator 504 operation back, can stabilize the pH value, increase water dissolved oxygen, reduce ammonia nitrogen salt, organic matter such as the residual feed excrement and urine in the separation aquatic, the water after the purification flows back again through return pipe 5043 and breeds 1 inside the pond.

The specific use mode and function of the embodiment are as follows: in the invention, when in use, the control part 501 controls the timing wastewater recovery, the control part 501 controls the two groups of servo motors A103 positioned at the top of the culture pond 1 to synchronously operate, so that the servo motors A can drive the transverse chain 102 to transmit, the top fixing seat 1021 of the transverse chain 102 can drive the vertical frame 1022 at the bottom of the transverse chain 102 to horizontally move at the bottom of the culture pond 1, the transverse frame 104 can horizontally move leftwards, the hinged plate A1051 can keep horizontal with the transverse frame 104 by limiting the outer side of the hinged plate A1051 and the front end vertical face of the adjacent supporting square rod 105, the hinged plate A1051 can push excrement and bait accumulated at the bottom of the culture pond 1 and can push the excrement and bait to the left side of the culture pond 1, after the transverse frame 104 horizontally moves to the left end of the inner side of the culture pond 1, the servo motor B202 is controlled by the control part 501 to operate, the servo motors B can drive the longitudinal chain 2 to transmit, and can drive the longitudinal frame 201 to horizontally move from back to front, the hinged plate B2011 is perpendicular to the vertical surface of the left side of the culture pond 1 in the forward translation process by limiting the vertical surface of the rear end of the hinged plate B2011 and the vertical surface of the front end of the vertical frame 201, waste materials accumulated on the left side of the bottom of the culture pond 1 can be pushed to the position of the front end of the left side of the culture pond 1 and can be accumulated at the position of the sewage discharge outlet 106, after the hinged plate B2011 translates to the right side of the sewage discharge outlet 106, the servo motor C402 is servo-controlled by the control part 501 to intermittently operate, the auger rod 4021 can rotate, the waste materials on the inner side of the sewage discharge outlet 106 can be outwards transmitted, when the servo motor C402 stops intermittently, the servo motor A103 is controlled by the control part 501 to reversely rotate to drive the horizontal frame 104 to translate rightwards, when the horizontal frame 104 translates rightwards, the hinged plate A1051 can be overturned to the left side by the resistance effect of water flow, the hinged plate A1051 can be perpendicular to the horizontal frame 104, the residual waste in the translation process can be left between the supporting square rods 105, the control part 501 controls the servo motor B202 to rotate reversely, after the vertical rack 201 and the transverse rack 104 are reset, the servo motor is controlled to operate in a matched mode through the control part 501, the transverse rack 104 and the vertical rack 201 are controlled to translate in a reciprocating mode, the residual waste deposited at the bottom of the culture pond 1 can be repeatedly erased, the waste in the culture pond 1 can be transmitted to the top end of the inner side of the culture pond 1 through the drain pipe 401 and then can be discharged into the top of the waste net type conveyor belt 301 through the discharge branch pipe 4, excrement and bait with higher density can be filtered through the net type conveyor belt 301, the waste can be transmitted into the solid-liquid separator 304 through the net type conveyor belt 301, the moisture in the waste can be downwards discharged through the operation of the solid-liquid separator 304, and the waste water in the waste can be discharged at the bottom of the waste water tank 3, the waste material is drained and then discharged through the rear side of the solid-liquid separator 304, the waste material can fall on the top of the fertilizer processing conveyor belt 3051, the fertilizer processing conveyor belt 3051 operates to discharge solid organic matters out of the waste water tank 3 to facilitate organic fertilizer composting, the separated waste water flows backwards and then can be filtered for the second time through the screen plate 306, after solid residues are accumulated on the front side of the screen plate 3062, the solid residues can be received through the bottom baffle 3062, the residues can be taken out by lifting the lifting handle upwards, the filtered waste water on the rear side of the screen plate 306 can be sterilized through the ultraviolet lamp tube 307, the recycling pump 502 is controlled by the control part 501 to operate, the waste water filtered on the rear side of the screen plate 306 can be transmitted to the inside of the recycling part 5, the waste water can be transmitted into the inside of the screen pipe 503 to be filtered, the filtered waste water enters the inside of the protein separator 504 through a pipeline to be purified, after the protein separator 504 operates, the PH value can be stabilized, the dissolved oxygen of the water body is increased, the ammonia nitrogen sub-salt is reduced, the organic matters such as residual bait, excrement and the like in the water are separated, and the purified water body flows back to the interior of the culture pond 1 through the return pipe 5043.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims

1. The utility model provides a prevent blockking up fish shrimp plant waste water recovery filtration equipment which characterized in that includes: a culture pond and a wastewater tank;

2. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms of claim 1, wherein: the left side of the bottom in the culture pond is penetrated with a sewage draining outlet, and the tail end of the outer side of the sewage draining outlet is upwards inclined by forty-five degrees.

3. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms of claim 1, wherein: breed pond quantity and set up to two groups, the wastewater disposal basin is located two sets of breed pond inboards, and the wastewater disposal basin top inboard is provided with the net formula conveyer belt through the hinge connection, and the inboard fixedly connected with of wastewater disposal basin receives the material funnel, receives the material funnel and is located net formula conveyer belt rear end bottom, receives material funnel top fixedly connected with arc backplate.

4. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms according to claim 3, wherein: receive material funnel bottom fixedly connected with solid-liquid separation machine, the solid-liquid separation machine left and right sides is fixed mutually with the wastewater disposal basin inner wall, and the wastewater disposal basin right side transversely runs through there is the side fluting, and side fluting inboard bottom fixedly connected with fertilizer processing conveyer belt, fertilizer processing conveyer belt are located solid-liquid separation machine rear side bottom.

5. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms of claim 1, wherein: the inner side of the waste water tank is provided with an outer fixed frame through sliding connection, the top of the outer fixed frame is fixedly connected with a handle, the inner side of the outer fixed frame is fixedly connected with a screen plate, and the bottom of the outer fixed frame is fixedly connected with a bottom baffle.

6. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms of claim 1, wherein: the inner side of the waste water tank is fixedly connected with an ultraviolet lamp tube which is positioned at the rear side of the outer fixed frame.

7. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms of claim 1, wherein: waste water tank top fixedly connected with arranges the material fork, arranges the material fork outside fixedly connected with blow off pipe, and blow off bottom of the tubes portion fixedly connected in the drain is inboard, and blow off pipe top fixedly connected with servo motor C, servo motor C bottom are provided with through coaxial coupling stirs the dragon pole, and the screw rod hinge is connected in the blow off pipe inboard.

8. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms of claim 1, wherein: the waste water tank rear end fixedly connected with recovery unit, recovery unit right side fixedly connected with control part, the inside PLC control system that is provided with of control part.

9. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms of claim 8, wherein: the left end of the inner side of the recovery part is fixedly connected with a recovery pump, the left end of the recovery pump is connected with a wastewater tank, the top of the recovery pump is provided with a filter screen pipe through pipeline connection, the right end of the filter screen pipe is provided with a protein separator through pipeline connection, the front side of the protein separator is provided with a jet pump through flange connection, and the bottom of the right side of the jet pump is provided with a water inlet valve through flange connection.

10. The anti-clogging waste water recycling and filtering equipment for fish and shrimp farms of claim 8, wherein: the front side in the recovery part is fixedly connected with an ozone generator, the ozone generator is connected with a protein separator through a pipeline, a check valve is arranged in a drainage pipe at the right end of the protein separator through flange connection, a return pipe is arranged at the right end of the check valve through flange connection, and the return pipe is fixedly connected to the inner side of a culture pond.