CN218736668U - Intelligent circulating water system fish culture equipment - Google Patents

Abstract

The utility model belongs to the technical field of fish culture equipment, in particular to fish culture equipment of an intelligent circulating water system, which comprises a frame body, a first culture box, a second culture box, a four-stage purification box, a liquid dung separation box and a controller; a first overflow sewage draining mechanism is arranged at a right angle in the inner cavity of the first breeding box; the back sides of the three culture cavities of the second culture box are provided with second overflow sewage draining mechanisms; the first overflow sewage discharging mechanism and the second overflow sewage discharging mechanism are both connected with the liquid dung separating box; a water conveying mechanism is arranged in the first placing cavity, and a clear water cavity of the four-stage purifying box is connected with the first breeding box and the second breeding box together through the water conveying mechanism; the front side of support body can be provided with the sealing door with overturning, is provided with control panel on the sealing door for some fish farming equipment of solving today do not possess the function of carrying out the automation clearance to produced fish excrement and fodder residue in the equipment, thereby can't satisfy user's requirements for quality, reduced user's the problem of experience sense.

Description

Intelligent circulating water system fish culture equipment

Technical Field

The utility model belongs to the technical field of fish culture equipment, concretely relates to intelligence circulating water system fish culture equipment.

Background

The fish culture equipment can be applied to places such as company units, families, related laboratories and the like, can be used as a facility for indoor fish culture, after the fish is cultured in the culture equipment, as the fish can generate a lot of excrement and feed residues in the growth process, the generated excrement and feed residues can be retained in the culture equipment, and if the generated excrement and feed residues are not cleaned in time, a plurality of harmful substances can be generated to influence the water quality in a tank, so that the survival of the fish in the equipment is not facilitated;

however, in some current fish culture equipment, many of the excrement and the feed residues in the equipment are cleaned in a traditional manual fishing or water changing mode, and the excrement and the feed residues in the tank are not automatically cleaned, so that the quality requirement of a user cannot be met, and the experience of the user is reduced.

SUMMERY OF THE UTILITY MODEL

Based on the problem mentioned in the above-mentioned background art, the utility model provides an intelligence circulating water system fish aquaculture equipment for some aquaculture equipment of solving now do not possess the function of carrying out the automation to excrement and feed residue in the equipment and clear up, thereby can't satisfy user's requirement for quality, reduced user's the problem of experience sense.

The utility model adopts the technical scheme as follows:

an intelligent fish culture device with a circulating water system comprises a frame body, a first culture box, a second culture box, a four-stage purification box, a liquid dung separation box and a controller;

the first breeding box is arranged on the frame body through a third placing cavity, and a first overflow sewage discharging mechanism is arranged at a right angle in the inner cavity of the first breeding box;

the second breeding box is arranged on the frame body through a second placing cavity, the inner cavity of the second breeding box is blocked by a partition plate to form a plurality of independent breeding cavities, and a second overflow sewage discharging mechanism is arranged on the back side of each breeding cavity;

the liquid dung separating box is arranged on the frame body through a fifth placing cavity and is positioned on one side of the second breeding box, and the first overflow sewage discharging mechanism and the second overflow sewage discharging mechanism are both connected with the liquid dung separating box; an automatic cleaning mechanism is arranged in the liquid dung separating box and is used for automatically cleaning dirt separated by the liquid dung separating box;

the four-stage purification box is arranged on the frame body through the first placing cavity and is positioned below the second breeding box, and an inner cavity of the four-stage purification box is blocked by three blocking plates to form a physical cavity, a fluidization cavity, a biochemical cavity and a clear water cavity; a drain pipe is arranged on one side of the liquid dung separation box, and an outlet of the drain pipe is positioned above the opening of the physical cavity;

a water conveying mechanism is arranged in the first placing cavity, and a clear water cavity of the four-stage purifying box is connected with the first breeding box and the second breeding box together through the water conveying mechanism;

the controller is placed the chamber through the sixth and is set up on the support body and be located liquid dung separator box below, the front side of support body is provided with the closed door with overturning, be provided with control panel on the closed door, control panel pass through the controller with water delivery mechanism electric connection.

On the basis of the technical scheme, the utility model discloses following improvement has still been made:

further, the first overflow sewage discharging mechanism comprises a partition plate, the partition plate is arranged at a right angle in an inner cavity of the first cultivation box, a closed cavity is formed by the partition plate and the right angle, an overflow groove is formed in one side of the partition plate, which is far away from the cavity, an overflow port facing the cavity is formed in the top of the overflow groove, a filter plate is arranged on one side of the partition plate, which is close to the overflow groove, a plurality of filter ports are formed in the bottom of the filter plate, the filter ports are communicated with the overflow groove, and the bottom of the closed cavity, which is formed by the partition plate and the right angle of the first cultivation box, is communicated with a branch drainage pipe.

Furthermore, the second overflow sewage discharging mechanism comprises an overflow groove, the overflow groove is arranged on the corresponding culture cavity back side wall in the second culture box, an overflow hole is arranged on one side, away from the culture cavity, of the top of the overflow groove, a filter plate is arranged on the corresponding culture cavity back side wall in the second culture box, filter holes are arranged at the bottom of the filter plate, the filter holes are communicated with the overflow groove, a collecting hopper is arranged on the outer wall of the back side of the second culture box, the overflow hole is communicated with the collecting hopper, a main sewage discharging pipe is communicated with the collecting hopper, and an outlet of the branch sewage discharging pipe is converged on the main sewage discharging pipe;

a sewage discharge cavity and a water storage cavity are formed in the liquid dung separating box in a separating mode through a separating plate, a filter screen cylinder is rotatably arranged between a vertical plate of the separating plate and an inner wall of the liquid dung separating box through a clamping frame, and the filter screen cylinder is located in the sewage discharge cavity;

a connecting pipe is arranged on a vertical plate of the partition plate, an inlet of the connecting pipe is communicated with the main sewage discharge pipe, and an outlet of the connecting pipe is positioned in the filter screen cylinder; be provided with the branch pipe on the riser of division board, the branch pipe import is located the blowdown intracavity, and the branch pipe export is located the retaining intracavity, excrement-water separator box one side is provided with the drain pipe, and the import of drain pipe is located the blowdown intracavity, the import of drain pipe is located the retaining intracavity.

Further, the automatic cleaning mechanism comprises an intelligent controller, an electromagnetic valve a, an electromagnetic valve b, a motor and a water suction pump, the intelligent controller is arranged outside the liquid dung separating box, the electromagnetic valve a is arranged on the drain pipe, the electromagnetic valve b is arranged on the branch pipe, the motor is arranged on the partition plate, the water suction pump is located in the water storage cavity, and the electromagnetic valve a, the electromagnetic valve b, the motor and the water suction pump are all electrically connected with the intelligent controller;

a gear is arranged on the motor driving shaft, a toothed ring is arranged on the filter screen cylinder, and the gear is meshed with the toothed ring; the water suction pump is provided with a water spraying pipe, the water spraying pipe is provided with a plurality of water spraying heads, and the nozzle of each water spraying head faces the wall of the filter screen cylinder.

Further, the water delivery mechanism comprises a pump machine arranged in the first placing cavity, the pump machine is connected with the control panel through a controller, an inlet of the pump machine is connected with the clean water cavity through a water suction pipe, and a fourth control valve is arranged on the water suction pipe;

the outlet of the pump is provided with a water outlet pipe, a pipe orifice of the water outlet pipe is provided with a branched pipe, a water pipe is arranged at the pipe orifice of the branched pipe, a water pipe nozzle is arranged at the mouth part of the top end of the water pipe, and the water pipe nozzle is positioned in the first breeding box and is opposite to the filter plate; a fifth control valve is arranged on the pipe body of the water pipe below the branch pipe, and a ninth control valve is arranged on the pipe body of the water pipe above the branch pipe;

the branched pipes are provided with branched water pipes, the number of the branched water pipes is corresponding to that of the culture cavities, the outlet of each branched water pipe is provided with a branched water pipe spray head, each branched water pipe spray head is respectively positioned in the corresponding culture cavity on the second culture box and is opposite to the filter plate, and each branched water pipe is provided with a sixth control valve; a prepared water delivery pipe is arranged at the pipe opening of the water distribution pipe, the outlet of the prepared water delivery pipe is positioned in the first breeding box, and an eighth control valve is arranged on the prepared water delivery pipe.

Further, be provided with the connecting branch pipe on the bleeder, be provided with the second control valve on the connecting branch pipe, the connecting branch pipe with be connected with the blow off pipe between the drain pipe export, be provided with blowdown head and three blowdown branch pipe on the blow off pipe, it is three all be provided with first control valve on the blowdown branch pipe, it is three the mouth of pipe of blowdown branch pipe is located fluidization chamber, biochemical chamber and clear water intracavity respectively.

Furthermore, a second purifying cylinder is arranged in the first placing cavity, the inlet of the second purifying cylinder is connected with the water outlet pipe through a flow dividing pipe, a tenth control valve is arranged on the flow dividing pipe, the outlet of the second purifying cylinder is provided with a discharge pipe, and the outlet of the discharge pipe is positioned above the opening of the clean water cavity; the water distribution pipe is provided with a circulating pipe, the circulating pipe is provided with a seventh control valve, and an outlet of the circulating pipe is positioned in the fluidization cavity.

The water storage tank is arranged on the frame body through a fourth placing cavity, a water replenishing pipe is arranged between one side of the water storage tank and the clear water cavity, and a third control valve is arranged on the water replenishing pipe; the top of the water storage tank is provided with an aerator, the aerator is electrically connected with the control panel through a controller, the aerator is provided with a first air pipe and a second air pipe, the outlet of the first air pipe is positioned in the water storage tank, the outlet of the second air pipe is provided with an aerator, and the aerator is positioned in the fluidization cavity.

And the lamp is arranged on the cross rod at the top of the third placing cavity and is electrically connected with the control panel through the controller.

Furthermore, the top port parts of the first breeding box and the second breeding box are covered with box covers in a buckling manner.

The utility model has the advantages that:

1. through the combination of the first overflow sewage discharging mechanism, the second overflow sewage discharging mechanism, the water conveying mechanism, the control panel and the controller, the water conveying mechanism can operate by operating corresponding function keys on the control panel, the water conveying mechanism can supply water to the first breeding box and the second breeding box, the water flowing into the first breeding box and the second breeding box can continuously impact excrement and residues in the boxes, the excrement in the first breeding box can be flushed to the first overflow sewage discharging mechanism, the excrement in the second breeding box can be flushed to the second overflow sewage discharging mechanism, and then the excrement and the water are collected and discharged to the excrement and water separation box, so that the excrement in the boxes can be automatically cleaned and discharged;

2. excrement and water discharged from the first breeding box and the second breeding box into the excrement-water separation box can be separated through the excrement-water separation box and the separation assembly arranged in the excrement-water separation box, the separated water can flow into the four-stage purification box to be treated again, and the separated excrement can be intercepted in the excrement-water separation box, so that the liquid discharged from the first breeding box and the second breeding box is subjected to excrement-water separation operation;

3. through the four-stage purification box, the water after the liquid dung separation treatment can be recovered into a physical cavity in the four-stage purification box for suspended matter treatment, then sequentially flows into a vulcanization cavity for bacterium cultivation, a biochemical cavity for digestive bacteria and a clear water cavity for sterilization, further purification treatment of the recovered water is realized, and the treated water can be sent into the cultivation box again through the water conveying mechanism for reuse;

4. through the arranged automatic cleaning mechanism, the automatic cleaning mechanism can automatically clean the excrement intercepted in the excrement-water separation tank at regular time, so that the excrement intercepted in the excrement-water separation tank does not need to be cleaned manually, and the labor capacity of a user is reduced;

5. the water storage tank is used for compensating water consumed and discharged by excrement in the excrement-water cleaning separation tank, so that the water is compensated into the four-stage purification tank by the same amount of the water storage tank, and the water quantity of the whole circulating water is kept unchanged all the time;

6. the aerator is controlled to operate by a button of the operation control panel and the controller through the arranged aerator, and can be used for aerating water in the water storage tank and the four-stage purification tank so as to increase oxygen in the water and achieve the purpose of water culture;

7. through the second purification section of thick bamboo that sets up, usable water delivery mechanism takes out the water of clear water intracavity to carry out the secondary filter in the second purification section of thick bamboo to improve water quality.

Drawings

The present invention can be further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a perspective view of the fish farming equipment of the intelligent circulating water system of the present invention;

FIG. 2 is a structural diagram of the fish farming equipment of the intelligent circulating water system of the utility model;

FIG. 3 is a bottom structure view of the fish farming equipment of the intelligent circulating water system of the utility model;

FIG. 4 is a side structure view of the fish farming equipment of the intelligent circulating water system of the present invention;

FIG. 5 is a back sectional view of the fish farming equipment with an intelligent circulating water system of the present invention;

FIG. 6 is a back structure diagram of the fish farming equipment of the intelligent circulating water system of the utility model;

fig. 7 is a side sectional view of the intelligent circulating water system fish farming equipment of the present invention;

FIG. 8 is a structural diagram of a liquid dung separating box in the fish culture equipment of the intelligent circulating water system;

FIG. 9 is a structural diagram of a second cultivation box in the fish cultivation equipment of the intelligent circulating water system of the utility model;

fig. 10 is the structure diagram of the first culture box in the fish culture equipment of the intelligent circulating water system.

The drawings are labeled as follows:

1. a frame body; 101. a first placing cavity; 102. a second placing cavity; 103. a third placing cavity; 104. a fourth placing cavity; 105. a fifth placing cavity; 106. a sixth placing cavity; 107. a closing door; 108. a cross bar; 2. a first breeding box; 201. a partition plate; 202. an overflow trough; 203. an overflow port; 204. filtering the plate; 205. filtering the opening; 206. a branched drain pipe; 3. a second cultivation box; 301. a separator plate; 4. a four-stage purification box; 401. a barrier plate; 402. a physical cavity; 403. a fluidization chamber; 404. a biochemical chamber; 405. a clear water cavity; 5. a water storage tank; 6. a liquid dung separating box; 601. an intelligent controller; 602. a drain pipe; 603. an electromagnetic valve a; 604. a drain pipe; 605. a partition plate; 606. a blowdown chamber; 607. a water storage cavity; 608. a branch pipe; 609. a solenoid valve b; 610. a clamping frame; 611. a filter screen cylinder; 612. a connecting pipe; 701. a controller; 702. a control panel; 801. an aerator; 802. a first air pipe; 803. a second air pipe; 804. an aeration head; 9. a sewage discharge pipe; 901. a blowdown head; 902. a sewage branch pipe; 903. a first control valve; 904. connecting branch pipes; 905. a second control valve; 10. a water replenishing pipe; 1000. a third control valve; 11. a pump machine; 1101. a suction pipe; 1102. a fourth control valve; 1103. a water outlet pipe; 1104. a branch pipe; 1105. a water delivery pipe; 1105-1, a water pipe spray head; 1106. a fifth control valve; 1107. a water diversion pipe; 1108. a branch water delivery pipe; 1108-1, branch water pipe spray heads; 1109. a sixth control valve; 1110. a circulation pipe; 1111. a seventh control valve; 1112. preparing a water conveying pipe; 1113. an eighth control valve; 1114. a ninth control valve; 12. a second purification cartridge; 1201. a shunt tube; 1202. a tenth control valve; 1203. a discharge pipe; 1301. a collecting hopper; 1302. a surge tank; 1303. a surge hole; 1304. a filter plate; 1305. filtering holes; 1306. a main drain pipe; 14. a motor; 1401. a gear; 1402. a toothed ring; 1403. a water pump; 1404. a water spray pipe; 1405. a sprinkler head; 15. illuminating a lamp; 16. and a box cover.

Detailed Description

As shown in fig. 1 to 10, an intelligent fish farming device with a circulating water system comprises a frame body 1, a first farming tank 2, a second farming tank 3, a four-stage purification tank 4, a liquid dung separation tank 6 and a controller 701;

the first breeding box 2 is arranged on the frame body 1 through the third placing cavity 103, a first overflow sewage discharging mechanism is arranged at a right angle in the inner cavity of the first breeding box 2, and sewage in the first breeding box 2 can be discharged while water in the first breeding box 2 overflows through the arranged first overflow sewage discharging mechanism;

referring to fig. 10, the first overflow and sewage draining mechanism includes a partition 201, the partition 201 is disposed at a right angle in an inner cavity of the first cultivation box 2, a closed cavity is formed by the partition 201 and the right angle, an overflow trough 202 is disposed on a side of the partition 201 away from the cavity, water entering the first cultivation box 2 when water enters the first cultivation box impacts sewage to cause the sewage to flow up from the overflow trough 202 through the overflow trough 202, an overflow port 203 facing the cavity is disposed at a top of the overflow trough 202, the sewage rushing up from the overflow trough 202 can be drained into the cavity through the overflow port 203, a filter plate 204 is disposed on a side of the partition 201 close to the overflow trough 202, the filter plate 204 can block the sewage in the overflow trough 202 to prevent the sewage from returning back to the cultivation cavity of the first cultivation box 2, a plurality of filter openings 205 are disposed at a bottom of the filter plate 204, the filter openings 205 are in through connection with the overflow trough 202, the bottom of the closed cavity formed by the partition 201 and the right angle with the first cultivation box 2 is communicated with a branch drainage pipe 206, when water enters the first cultivation box 2, the overflow trough 202, and the sewage is drained from the overflow trough 203 to the overflow trough 202, so as to drain the sewage from the overflow trough 202, and the overflow trough 202, thereby automatically;

referring to fig. 1 and 9, the second cultivation box 3 is arranged on the frame body 1 through the second placing cavity 102, the inner cavity of the second cultivation box 3 is isolated by the isolation plate 301 to form a plurality of independent cultivation cavities, the interior of the second cultivation box 3 is arranged into a plurality of cultivation cavities, so that one variety of fish can be cultivated in each cultivation cavity independently, a second overflow and sewage discharge mechanism is arranged on the back side of each cultivation cavity, and by the arrangement of the second overflow and sewage discharge mechanism, sewage in the second cultivation box 3 can be discharged while water in the second cultivation box 3 overflows;

referring to fig. 9, the second overflow sewage discharging mechanism comprises a surge tank 1302, the surge tank 1302 is arranged on the back side wall of the corresponding cultivation cavity in the second cultivation box 3, the water entering the second cultivation box can impact the sewage to cause the sewage to surge from the surge tank 1302 through the arranged surge tank 1302, a surge hole 1303 is arranged on one side of the top of the surge tank 1302 far away from the cultivation cavity, the arranged surge hole 1303 can discharge the sewage flushed from the surge tank 1302, a filter plate 1304 is arranged on the back side wall of the corresponding cultivation cavity in the second cultivation box 3, the arranged filter plate 1304 can intercept the sewage entering the surge tank 1302 to prevent the sewage from returning to the cultivation cavity, a filter hole 1305 is arranged at the bottom of the filter plate 1304, the filtering hole 1305 is communicated with the flushing tank 1302, the collecting hopper 1301 is arranged on the outer wall of the back side of the second culture box 3, the flushing hole 1303 is communicated with the collecting hopper 1301, the collecting hopper 1301 is communicated with a main sewage discharge pipe 1306, the outlets of the branch sewage discharge pipes 206 are converged on the main sewage discharge pipe 1306, when water is fed into the second culture box 3, water entering the second culture box 3 can continuously impact sewage in the box, so that the sewage is flushed to the filtering hole 1305 and then enters the flushing tank 1302, the sewage is made to flow upwards from the flushing tank 1302 to the flushing hole 1303 and is discharged to the collecting hopper 1301, and then the sewage is discharged from the main sewage discharge pipe 1306, and therefore automatic cleaning of the sewage in the second culture box 3 is achieved;

referring to fig. 1, 2 and 6, the liquid dung separating box 6 is arranged on the frame body 1 and at one side of the second breeding box 3 through a fifth placing cavity 105, and the first overflow sewage discharging mechanism and the second overflow sewage discharging mechanism are both connected with the liquid dung separating box 6; excrement and water discharged from the first breeding box 2 and the second breeding box 3 into the excrement and water separation box 6 can be separated through the arranged excrement and water separation box 6;

a sewage discharge cavity 606 and a water storage cavity 607 are formed in the liquid dung separating box 6 by separating a separating plate 605, a filter screen cylinder 611 is rotatably arranged between a vertical plate of the separating plate 605 and an inner wall of the liquid dung separating box 6 through a clamping frame 610, the filter screen cylinder 611 is positioned in the sewage discharge cavity 606, and excrement and water discharged into the liquid dung separating box 6 can be separated through the arranged filter screen cylinder 611, so that the excrement is intercepted in the filter screen cylinder 611, and the water is filtered out from the filter screen cylinder 611, thereby realizing the liquid dung separating operation;

a connecting pipe 612 is arranged on the vertical plate of the partition plate 605, the inlet of the connecting pipe 612 is communicated with the main sewage discharge pipe 1306, and the outlet of the connecting pipe 612 is positioned in the filter screen cylinder 611; the connecting pipe 612 is arranged to lead the dirt and water in the main dirt discharge pipe 1306 to the filter screen cylinder 611 for separating the liquid and the excrement;

a branch pipe 608 is arranged on the vertical plate of the partition plate 605, the inlet of the branch pipe 608 is positioned in the sewage discharging cavity 606, the outlet of the branch pipe 608 is positioned in the water storage cavity 607, a drainage pipe 602 is arranged on one side of the liquid manure separation tank 6, the inlet of the drainage pipe 602 is positioned in the sewage discharging cavity 606, the inlet of the drainage pipe 604 is positioned in the water storage cavity 607, after being filtered by a filter screen cylinder 611, the water flows in the sewage discharging cavity 606 through the filter screen cylinder 611, then is discharged into the water storage cavity 607 through the branch pipe 608, and can be discharged from the drainage pipe 604;

referring to fig. 7, an automatic cleaning mechanism is arranged in the liquid dung separating box 6 and is used for automatically cleaning the dirt separated by the liquid dung separating box 6; the automatic cleaning mechanism comprises an intelligent controller 601, an electromagnetic valve a603, an electromagnetic valve b609, a motor 14 and a water pump 1403, the intelligent controller 601 is arranged outside the liquid dung separating box 6, the electromagnetic valve a603 is arranged on the drainage pipe 602, the electromagnetic valve b609 is arranged on the branch pipe 608, the motor 14 is arranged on the partition plate 605, the water pump 1403 is located in the water storage cavity 607, and the electromagnetic valve a603, the electromagnetic valve b609, the motor 14 and the water pump 1403 are all electrically connected with the intelligent controller 601;

a gear 1401 is arranged on a driving shaft of the motor 14, a toothed ring 1402 is arranged on the filter screen cylinder 611, and the gear 1401 is meshed with the toothed ring 1402; through the combination of the gear 1401, the toothed ring 1402 and the motor 14, the motor 14 is started to drive the gear 1401 to rotate, and the gear 1401 and the toothed ring 1402 are meshed for transmission and then can drive the filter screen drum 611 to rotate; the water suction pump 1403 is provided with a water spray pipe 1404, the water spray pipe 1404 is provided with a plurality of water spray heads 1405, the nozzles of the water spray heads 1405 face the wall of the filter screen cylinder 611, the water suction pump 1403 is arranged to pump water in the water storage cavity 607 into the water spray pipe 1404, then the water is sprayed onto the filter screen cylinder 611 from the plurality of water spray heads 1405, and then the sewage adhered to the filter screen cylinder 611 can be washed by combining the rotating motion of the filter screen cylinder 611, so that the sewage flows into the sewage discharge cavity 606; the electromagnetic valve a603, the electromagnetic valve b609, the motor 14 and the water pump 1403 are all controlled by the intelligent controller 601;

a timing cleaning control command and cleaning duration can be input into the intelligent controller 601, that is, when a preset time point is reached, the electromagnetic valve b609 is closed, the electromagnetic valve a603 is opened, the motor 14 and the water pump 1403 are started, the motor 14 is started and drives the filter screen cylinder 611 to rotate after being transmitted by the gear 1401 and the toothed ring 1402, the water pump 1403 is started to pump water in the water storage cavity 607 into the water spray pipe 1404 to spray the filter screen cylinder 611 from a plurality of water spray heads 1405, and the dirt adhered to the filter screen cylinder 611 is automatically cleaned at a fixed time in combination with the rotating motion of the filter screen cylinder 611, that is, the excrement intercepted in the excrement-water separation tank 6 does not need to be cleaned manually, so that the labor capacity of a user is reduced, and the sewage generated by cleaning flows in the sewage discharge cavity 606 and then can be discharged from the sewage discharge pipe 602;

referring to fig. 2 and 5, the fourth-stage purification box 4 is arranged on the frame body 1 and below the second cultivation box 3 through the first placing cavity 101, and an inner cavity of the fourth-stage purification box 4 is blocked by three blocking plates 401 to form a physical cavity 402, a fluidization cavity 403, a biochemical cavity 404 and a clean water cavity 405; a drain pipe 604 is arranged on one side of the liquid dung separating box 6, and the outlet of the drain pipe 604 is positioned above the opening part of the physical cavity 402; the water after being treated by the liquid dung can be discharged into the physical cavity 402 in the four-stage purification box 4 through the drain pipe 604, the physical cavity 402 is filled with filter cotton, and the water entering the physical cavity 402 can intercept suspended matters in the water after passing through the filter cotton; after suspended matter treatment is carried out on water in the physical cavity 402, the water flows into the fluidization cavity 403, and after aeration treatment is carried out on the water in the fluidization cavity 403, the oxygen content in the water can be increased; the water flows into the biochemical cavity 404 after being treated by the fluidized cavity 403 to be treated by the digestive bacteria, and finally flows into the clear water cavity 405 to be sterilized after being treated by the digestive bacteria, so that the further purification treatment of the recovered water is realized;

referring to fig. 1 to 3, a water delivery mechanism is arranged in the first placing cavity 101, the clear water cavity 405 of the fourth-stage purifying box 4 is connected with the first breeding box 2 and the second breeding box 3 together through the water delivery mechanism, and water can be conveniently delivered into the first breeding box 2 and the second breeding box 3 through the arranged water delivery mechanism; the controller 701 is arranged on the frame body 1 through the sixth placing cavity 106 and is positioned below the liquid dung separating box 6, the front side of the frame body 1 is provided with a sealing door 107 in a turnover manner, the sealing door 107 is provided with a control panel 702, and the control panel 702 is electrically connected with the water conveying mechanism through the controller 701; the operation of the water delivery mechanism can be controlled by the combination of the arranged controller 701 and the control panel 702;

referring to fig. 1, 3 and 10, the water delivery mechanism includes a pump 11 disposed in the first placing cavity 101, the pump 11 is connected to the control panel 702 through the controller 701, and the controller 701 is sent an instruction by pressing a corresponding key on the control panel 702, so as to control the on/off of the pump 11; the controller 701 can also be compatible with the mobile phone for operation and control, that is, corresponding control software is installed on the mobile phone, and commands are input into the control software on the mobile phone and then sent to the controller 701, so that remote real-time operation is realized;

the inlet of the pump 11 is connected with the clear water cavity 405 through a suction pipe 1101, and the suction pipe 1101 is provided with a fourth control valve 1102; an outlet pipe 1103 is arranged at the outlet of the pump 11, a branch pipe 1104 is arranged at the pipe orifice of the outlet pipe 1103, a water delivery pipe 1105 is arranged at the pipe orifice of the branch pipe 1104, a water delivery pipe nozzle 1105-1 is arranged at the mouth part of the top end of the water delivery pipe 1105, and the water delivery pipe nozzle 1105-1 is positioned in the first culture box 2 and is opposite to the filter plate 204; a fifth control valve 1106 is arranged on the pipe body of the water conveying pipe 1105 positioned below the branch pipe 1104, and a ninth control valve 1114 is arranged on the pipe body of the water conveying pipe 1105 positioned above the branch pipe 1104; after the pump 11 is started, water in the clean water cavity 405 can be discharged into the first culture box 2 through the water suction pipe 1101, the water outlet pipe 1103, the branch pipe 1104 and the water delivery pipe 1105 in sequence, and finally the water is sprayed out from the water delivery pipe sprayer 1105-1 towards the direction of the filter plate 204, so that the water feeding in the first culture box 2 is realized, and in the process that the water is sprayed out from the water delivery pipe sprayer 1105-1 towards the direction of the filter plate 204, the water flow can impact dirt in the box, so that the dirt is flushed into the filter opening 205, and the dirt in the first culture box 2 can be automatically cleaned while the water feeding in the first culture box 2 is realized;

referring to fig. 1, 2, 3 and 9, a branched pipe 1107 is arranged on the branched pipe 1104, branched water pipes 1108 corresponding to the number of the culture cavities are arranged on the branched pipe 1107, a branched water pipe spray head 1108-1 is arranged at an outlet of each branched water pipe 1108, each branched water pipe spray head 1108-1 is respectively positioned in the corresponding culture cavity on the second culture box 3 and faces the filter plate 1304, and a sixth control valve 1109 is arranged on each branched water pipe 1108; when the pump 11 is started, water in the clean water cavity 405 can be discharged to a corresponding culture cavity in the second culture box 3 through the water suction pipe 1101, the water outlet pipe 1103, the branch pipe 1104, the water distribution pipe 1107 and the corresponding branch water pipe 1108 in sequence, the water is sprayed out from the corresponding branch water pipe spray head 1108-1 towards the corresponding filter plate 1304, so that the corresponding culture cavity in the second culture box 3 is filled with water, and in the process that the water is sprayed out from the corresponding branch water pipe spray head 1108-1 towards the corresponding filter plate 1304, water flow can impact dirt in the box, so that the dirt is flushed into the filter holes 1305, so that the dirt in the culture cavity can be automatically cleaned while each culture cavity in the second culture box 3 is filled with water;

referring to fig. 3, a prepared water pipe 1112 is arranged at a pipe orifice of the water distribution pipe 1107, an outlet of the prepared water pipe 1112 is positioned in the first culture box 2, an eighth control valve 1113 is arranged on the prepared water pipe 1112, and the prepared water pipe 1112 can be used for other subsequent requirements;

referring to fig. 1 to 4, a connecting branch pipe 904 is arranged on a branch pipe 1104, a second control valve 905 is arranged on the connecting branch pipe 904, a sewage discharge pipe 9 is connected between the connecting branch pipe 904 and an outlet of a drain pipe 602, a sewage discharge head 901 and three sewage discharge branch pipes 902 are arranged on the sewage discharge pipe 9, first control valves 903 are arranged on the three sewage discharge branch pipes 902, pipe orifices of the three sewage discharge branch pipes 902 are respectively located in a fluidization chamber 403, a biochemical chamber 404 and a clear water chamber 405, and when water in a first culture tank 2, a second culture tank 3, the fluidization chamber 403, the biochemical chamber 404 and the clear water chamber 405 needs to be discharged, the fourth control valve 1102 is closed by opening three first control valves 903, a second control valve 905, a fifth control valve 1106, three sixth control valves 1109 and a ninth control valve 1114, so that the water in the first culture tank 2 is discharged from a water conveying pipe 1105; the water in the second breeding box 3 is discharged through the corresponding branch water pipe 1108, the water distribution pipe 1107, the branch pipe 1104, the connecting branch pipe 904, the sewage discharge pipe 9 and the sewage discharge head 901 in sequence; water in the fluidization cavity 403, the biochemical cavity 404 and the clear water cavity 405 is discharged through the three sewage branch pipes 902, the sewage discharge pipe 9 and the sewage discharge head 901 in sequence;

referring to fig. 4 and 5, a second purifying cylinder 12 is arranged in the first placing cavity 101, an inlet of the second purifying cylinder 12 is connected with the water outlet pipe 1103 through a diversion pipe 1201, a tenth control valve 1202 is arranged on the diversion pipe 1201, an outlet of the second purifying cylinder 12 is provided with a discharge pipe 1203, and an outlet of the discharge pipe 1203 is positioned above an opening of the clean water cavity 405; in order to further sterilize the water in the clean water cavity 405, the tenth control valve 1202 is opened, the pump 11 is used for inputting the water in the clean water cavity 405 into the second purification cylinder 12 through the shunt pipe 1201 for sterilization, and the sterilized water is discharged back into the clean water cavity 405 again through the discharge pipe 1203, so that the water quality is improved;

the water diversion pipe 1107 is provided with a circulating pipe 1110, the circulating pipe 1110 is provided with a seventh control valve 1111, the outlet of the circulating pipe 1110 is positioned in the fluidization chamber 403, and the seventh control valve 1111 can be opened to improve the oxygen content in the water in the high-water chamber 405. The three sixth control valves 1109, the ninth control valve 1114, the fifth control valve 1106 and the eighth control valve 1113 are closed, the pump 11 is utilized to pump the water in the clean water cavity 405 into the fluidization cavity 403 through the water suction pipe 1101, the water outlet pipe 1103, the branch pipe 1104, the water distribution pipe 1107 and the circulation pipe 1110 in sequence, so that the water flows through aeration again;

referring to fig. 2, the water storage device further comprises a water storage tank 5, wherein the water storage tank 5 is arranged on the frame body 1 through a fourth placing cavity 104, a water supplementing pipe 10 is arranged between one side of the water storage tank 5 and the clear water cavity 405, and a third control valve 1000 is arranged on the water supplementing pipe 10; the water supplementing pipe 10 can be used for compensating water consumed and discharged by excrement in the excrement-water cleaning separation tank 6, so that the water is compensated into the four-stage purification tank 4 by the water storage tank 5 in an equivalent manner, and the water quantity of the whole circulating water is kept unchanged all the time;

the top of the water storage tank 5 is provided with an aerator 801, the aerator 801 is electrically connected with a control panel 702 through a controller 701, the aerator 801 is provided with a first air pipe 802 and a second air pipe 803, the outlet of the first air pipe 802 is positioned in the water storage tank 5, the outlet of the second air pipe 803 is provided with an aerator 804, the aerator 804 is positioned in the fluidization cavity 403, the controller 701 is sent an instruction by pressing a corresponding key on the control panel 702 or operating on corresponding control software on a mobile phone to control the opening and closing of the aerator 801, and after the aerator 801 is started, the water in the fluidization cavity 403 and the water storage tank 5 can be aerated to increase oxygen in the water and achieve the purpose of water culture;

referring to fig. 1, the fish-farming machine further comprises a radiation lamp 15, the radiation lamp 15 is arranged on the cross bar 108 at the top of the third placing cavity 103, the radiation lamp 15 is electrically connected with the control panel 702 through the controller 701, and by pressing a corresponding key on the control panel 702 or operating on corresponding control software on the mobile phone, an instruction is sent to the controller 701, so that the radiation lamp 15 is turned on, and the fish can be irradiated by simulating sunlight.

Referring to fig. 1, the top openings of the first and second cultivation boxes 2 and 3 are covered with a box cover 16, and the box cover 16 is arranged to cover the top openings of the first and second cultivation boxes 2 and 3 to prevent fish from jumping out.

Referring to fig. 1 to 10, in use, by pressing a corresponding key on the control panel 702 or operating on corresponding control software on a mobile phone, an instruction is sent to the controller 701, so that the pump 11 is started, after the pump 11 is started, water in the clean water chamber 405 can be discharged into the first aquaculture tank 2 through the water suction pipe 1101, the water outlet pipe 1103, the branch pipe 1104 and the water pipe 1105 in sequence, and finally the water is sprayed out from the water pipe nozzle 1105-1 towards the direction of the filter plate 204, so that water is supplied into the first aquaculture tank 2, and in the process that the water is sprayed out from the water pipe nozzle 1105-1 towards the direction of the filter plate 204, the water flow can impact dirt in the tank, so that the dirt is flushed into the filter openings 205, and then enters the overflow tank 202, and the dirt flows from the overflow tank 202 up to the overflow openings 203 to the cavity, and then is discharged from the branch drainage pipe 206, so that the dirt in the first aquaculture tank 2 is automatically cleaned;

meanwhile, water in the clean water cavity 405 can be discharged into each culture cavity in the second culture box 3 from the water distribution pipe 1107 and the corresponding branch water pipe 1108, the water is sprayed out from the corresponding branch water pipe spray head 1108-1 towards the corresponding filter plate 1304, so that the water feeding of each culture cavity in the second culture box 3 is realized, and in the process that the water is sprayed out from the corresponding branch water pipe spray head 1108-1 towards the corresponding filter plate 1304, water flow can impact dirt in the box, so that the dirt is flushed into the filter holes 1305, the dirt is flushed into the filter holes 1305 and then enters the flushing tank 1302, the dirt is flushed from the flushing tank 1302 to the outlet holes 1303 and discharged into the collecting hopper 1301, and then the dirt is discharged from the main dirt discharge pipe 1306, so that the dirt in the second culture box 3 is automatically cleaned;

dirt and water discharged from the main sewage discharge pipe 1306 are led into the filter screen cylinder 611 through the connecting pipe 612, so that the dirt is intercepted in the filter screen cylinder 611, the water seeps out of the filter screen cylinder 611 to realize the separation of the excrement and the water, the separated water is discharged into the four-stage purification box 4 through the drain pipe 604 to be purified, and the purified water can be led into the first culture box 2 and the second culture box 3 through the pump 11 and corresponding pipelines to be recycled;

and the intelligent controller 601 can input a timing cleaning control instruction and cleaning duration, so that when a certain preset time point is reached each time, the set electromagnetic valve b609 is closed, the electromagnetic valve a603 is opened, the motor 14 and the water pump 1403 are started, the motor 14 is started and drives the filter screen cylinder 611 to rotate after being driven by the gear 1401 and the gear ring 1402, the water pump 1403 is started to pump the water in the water storage cavity 607 into the water spray pipe 1404 to spray the water on the filter screen cylinder 611 from the plurality of water spray heads 1405, the dirt adhered to the filter screen cylinder 611 is automatically cleaned at a timing by combining the rotating motion of the filter screen cylinder 611, and the sewage generated by cleaning can be discharged from the drainage pipe 602, namely, the excrement intercepted in the excrement-water separation tank 6 does not need to be cleaned manually, and the labor capacity of a user is reduced.

The present invention has been described in detail above. The description of the specific embodiments is only intended to facilitate an understanding of the method of the invention and its core ideas. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The utility model provides an intelligence circulating water system fish farming equipment which characterized in that: comprises a frame body (1), a first breeding box (2), a second breeding box (3), a four-stage purifying box (4), a liquid dung separating box (6) and a controller (701);

the first breeding box (2) is arranged on the frame body (1) through a third placing cavity (103), and a first overflow sewage discharging mechanism is arranged at a right angle in the inner cavity of the first breeding box (2);

the second breeding box (3) is arranged on the frame body (1) through a second placing cavity (102), an inner cavity of the second breeding box (3) is blocked by a partition plate (301) to form a plurality of independent breeding cavities, and a second overflow sewage discharging mechanism is arranged on the back side of each breeding cavity;

the liquid dung separating box (6) is arranged on the frame body (1) through a fifth placing cavity (105) and is positioned on one side of the second breeding box (3), and the first overflow sewage discharging mechanism and the second overflow sewage discharging mechanism are both connected with the liquid dung separating box (6); an automatic cleaning mechanism is arranged in the liquid dung separating box (6) and is used for automatically cleaning dirt separated by the liquid dung separating box (6);

the four-stage purification box (4) is arranged on the frame body (1) through the first placing cavity (101) and is positioned below the second breeding box (3), and an inner cavity of the four-stage purification box (4) is blocked by three blocking plates (401) to form a physical cavity (402), a fluidization cavity (403), a biochemical cavity (404) and a clear water cavity (405); a drain pipe (604) is arranged on one side of the liquid dung separating box (6), and an outlet of the drain pipe (604) is positioned above the opening part of the physical cavity (402);

a water conveying mechanism is arranged in the first placing cavity (101), and a clear water cavity (405) of the four-stage purifying box (4) is connected with the first breeding box (2) and the second breeding box (3) through the water conveying mechanism;

the controller (701) is arranged on the frame body (1) through the sixth placing cavity (106) and is located below the liquid dung separating box (6), the front side of the frame body (1) is provided with a sealing door (107) in a turnover mode, a control panel (702) is arranged on the sealing door (107), and the control panel (702) is electrically connected with the water conveying mechanism through the controller (701).

2. The intelligent fish culture equipment with the circulating water system as claimed in claim 1, wherein: the first overflow and sewage discharge mechanism comprises a partition plate (201), the partition plate (201) is arranged at a right angle in an inner cavity of the first cultivation box (2), a closed cavity is formed by the partition plate (201) and the right angle, an overflow groove (202) is arranged on one side, away from the cavity, of the partition plate (201), the top of the overflow groove (202) is provided with an overflow port (203) facing the cavity, a filter plate (204) is arranged on one side, close to the overflow groove (202), of the partition plate (201), a plurality of filter ports (205) are arranged at the bottom of the filter plate (204), the filter ports (205) are communicated with the overflow groove (202), and a branch drain pipe (206) is communicated with the bottom of the closed cavity formed by the partition plate (201) and the first cultivation box (2) corresponding to the right angle.

3. The intelligent fish culture equipment with the circulating water system as claimed in claim 2, wherein: the second overflow sewage discharging mechanism comprises an overflow groove (1302), the overflow groove (1302) is arranged on the corresponding back side wall of the culture cavity in the second culture box (3), one side, far away from the culture cavity, of the top of the overflow groove (1302) is provided with an overflow hole (1303), the corresponding back side wall of the culture cavity in the second culture box (3) is provided with a filter plate (1304), the bottom of the filter plate (1304) is provided with a filter hole (1305), the filter hole (1305) is communicated with the overflow groove (1302), the outer wall of the back side of the second culture box (3) is provided with a collecting hopper (1301), the overflow hole (1303) is communicated with the collecting hopper (1301), the collecting hopper (1301) is communicated with a main sewage discharging pipe (1306), and the outlet of the branch sewage discharging pipe (206) is communicated with the main sewage discharging pipe (1306);

a sewage discharge cavity (606) and a water storage cavity (607) are formed in the liquid dung separating box (6) in a separating mode through a separating plate (605), a filter screen cylinder (611) is rotatably arranged between a vertical plate of the separating plate (605) and one inner wall of the liquid dung separating box (6) through a clamping frame (610), and the filter screen cylinder (611) is located in the sewage discharge cavity (606);

a connecting pipe (612) is arranged on the vertical plate of the separation plate (605), the inlet of the connecting pipe (612) is communicated with the main sewage discharge pipe (1306), and the outlet of the connecting pipe (612) is positioned in the filter screen cylinder (611); a branch pipe (608) is arranged on a vertical plate of the separation plate (605), an inlet of the branch pipe (608) is positioned in the sewage discharge cavity (606), an outlet of the branch pipe (608) is positioned in the water storage cavity (607), a drainage pipe (602) is arranged on one side of the excrement-water separation tank (6), an inlet of the drainage pipe (602) is positioned in the sewage discharge cavity (606), and an inlet of the drainage pipe (604) is positioned in the water storage cavity (607).

4. The intelligent fish culture equipment with the circulating water system as claimed in claim 3, wherein: the automatic cleaning mechanism comprises an intelligent controller (601), an electromagnetic valve a (603), an electromagnetic valve b (609), a motor (14) and a water suction pump (1403), the intelligent controller (601) is arranged outside the liquid dung separating box (6), the electromagnetic valve a (603) is arranged on a drainage pipe (602), the electromagnetic valve b (609) is arranged on a branch pipe (608), the motor (14) is arranged on a partition plate (605), the water suction pump (1403) is positioned in a water storage cavity (607), and the electromagnetic valve a (603), the electromagnetic valve b (609), the motor (14) and the water suction pump (1403) are electrically connected with the intelligent controller (601);

a gear (1401) is arranged on a driving shaft of the motor (14), a toothed ring (1402) is arranged on the filter screen cylinder (611), and the gear (1401) is meshed with the toothed ring (1402); be provided with spray pipe (1404) on suction pump (1403), be provided with a plurality of sprinkler bead (1405) on spray pipe (1404), sprinkler bead (1405) spout is towards filter screen section of thick bamboo (611) section of thick bamboo wall.

5. The intelligent fish culture equipment with the circulating water system as claimed in claim 3, wherein: the water delivery mechanism comprises a pump (11) arranged in a first placing cavity (101), the pump (11) is connected with a control panel (702) through a controller (701), an inlet of the pump (11) is connected with a clear water cavity (405) through a water suction pipe (1101), and a fourth control valve (1102) is arranged on the water suction pipe (1101);

an outlet pipe (1103) is arranged at the outlet of the pump (11), a branch pipe (1104) is arranged at the pipe orifice of the outlet pipe (1103), a water delivery pipe (1105) is arranged at the pipe orifice of the branch pipe (1104), a water delivery pipe nozzle (1105-1) is arranged at the mouth part of the top end of the water delivery pipe (1105), and the water delivery pipe nozzle (1105-1) is positioned in the first breeding box (2) and is opposite to the filter plate (204); a fifth control valve (1106) is arranged on the pipe body of the water conveying pipe (1105) below the branch pipe (1104), and a ninth control valve (1114) is arranged on the pipe body of the water conveying pipe (1105) above the branch pipe (1104);

the branch pipes (1104) are provided with water distribution pipes (1107), the water distribution pipes (1107) are provided with branch water conveying pipes (1108) corresponding to the number of the culture cavities, the outlet of each branch water conveying pipe (1108) is provided with a branch water conveying pipe spray head (1108-1), each branch water conveying pipe spray head (1108-1) is respectively positioned in the corresponding culture cavity of the second culture box (3) and is opposite to the filter plate (1304), and each branch water conveying pipe (1108) is provided with a sixth control valve (1109); the mouth of pipe of distributive pipe (1107) is provided with prepares raceway (1112), the export of preparing raceway (1112) is located first breed case (2), is provided with eighth control valve (1113) on preparing raceway (1112).

6. The intelligent fish culture equipment with the circulating water system as claimed in claim 5, wherein: be provided with connecting branch pipe (904) on bleeder (1104), be provided with second control valve (905) on connecting branch pipe (904), connecting branch pipe (904) with be connected with blow off pipe (9) between drain pipe (602) export, be provided with blowdown head (901) and three blowdown branch pipe (902) on blow off pipe (9), it is three all be provided with first control valve (903) on blowdown branch pipe (902), it is three the mouth of pipe of blowdown branch pipe (902) is located fluidization chamber (403), biochemical chamber (404) and clear water chamber (405) respectively.

7. The intelligent fish culture equipment with the circulating water system as claimed in claim 5, wherein: a second purifying cylinder (12) is arranged in the first placing cavity (101), an inlet of the second purifying cylinder (12) is connected with a water outlet pipe (1103) through a shunt pipe (1201), a tenth control valve (1202) is arranged on the shunt pipe (1201), an outlet of the second purifying cylinder (12) is provided with a discharge pipe (1203), and an outlet of the discharge pipe (1203) is positioned above the mouth of the clear water cavity (405); the water diversion pipe (1107) is provided with a circulating pipe (1110), the circulating pipe (1110) is provided with a seventh control valve (1111), and the outlet of the circulating pipe (1110) is positioned in the fluidization cavity (403).

8. The intelligent fish culture equipment with the circulating water system as claimed in claim 1, wherein: the water storage tank (5) is arranged on the frame body (1) through a fourth placing cavity (104), a water supplementing pipe (10) is arranged between one side of the water storage tank (5) and the clear water cavity (405), and a third control valve (1000) is arranged on the water supplementing pipe (10); the top of the water storage tank (5) is provided with an aerator (801), the aerator (801) is electrically connected with a control panel (702) through a controller (701), the aerator (801) is provided with a first air pipe (802) and a second air pipe (803), the outlet of the first air pipe (802) is positioned in the water storage tank (5), the outlet of the second air pipe (803) is provided with an aerator (804), and the aerator (804) is positioned in the fluidization cavity (403).

9. The intelligent fish culture equipment with the circulating water system as claimed in claim 1, wherein: the device is characterized by further comprising a lamp (15), wherein the lamp (15) is arranged on the cross rod (108) at the top of the third placing cavity (103), and the lamp (15) is electrically connected with the control panel (702) through a controller (701).

10. The intelligent fish culture equipment with the circulating water system as claimed in claim 1, wherein: the top end openings of the first breeding box (2) and the second breeding box (3) are covered with box covers (16).

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