CN109699561B

CN109699561B - Intelligent breeding system for medusa hydroids

Info

Publication number: CN109699561B
Application number: CN201910140187.8A
Authority: CN
Inventors: 刘青
Original assignee: Shanxi Agricultural University
Current assignee: Shanxi Agricultural University
Priority date: 2019-02-26
Filing date: 2019-02-26
Publication date: 2021-03-23
Anticipated expiration: 2039-02-26
Also published as: CN109699561A

Abstract

The invention discloses an intelligent breeding system for medusa and hydroid, which comprises a breeding cylinder, a filtering cylinder, a thermostat, pipe fittings, a colonization board assembly and an Internet of things device, wherein the breeding cylinder is arranged on the breeding cylinder; the pipe fittings comprise a water inlet pipe, a circulating water pipe and a water distribution pipe; the top of the culture cylinder is provided with an illuminating coral lamp, the culture cylinder is internally provided with a cylinder circulator, a guide plate and a top drainage water filtration punching guide plate, the filter cylinder is arranged between the culture cylinders, the water inlet pipe is respectively connected with the culture cylinder and the filter cylinder, the circulating water pipe is arranged at the joint of the water inlet pipe with the culture cylinder and the filter cylinder, the water distribution pipe is connected with the culture cylinder, the constant temperature machine is connected with the water distribution pipe, the colonization board assembly is arranged in the culture cylinder, and the Internet of things device is respectively connected with the constant temperature machine and the illuminating coral lamp; the water circulation in the culture tank can be realized, and the method is suitable for large-scale popularization.

Description

Intelligent breeding system for medusa hydroids

Technical Field

The invention relates to the technical field of aquatic product breeding, in particular to an intelligent breeding system for medusa hydroids.

Background

Liaoning and Shandong in China are big provinces for culturing jellyfishes (jellyfishes), wherein the Liaoning province creates a pioneer of the jellyfish and hydroid culture industry, and by the end of 2012, thirteen years in the whole province, the cumulative area of jellyfish pond culture reaches 111.7 million mu, the cumulative yield is 20.56 million tons, and the yield value is 22.9 hundred million yuan.

Most jellyfishes have quite complex life history and are formed by the generation alternation of the scyphoid stage of camp-benthic life and the jellyfish stage of floating life, mature scyphoids generate cross-breeding under proper environmental conditions to release floating disc-shaped larvae with the umbrella diameter of about 2-5 mm, the central opening of the disc-shaped larvae is closed when the disc-shaped larvae grow to about 1-2 cm in water to become young jellyfishes, and the jellyfishes finally grow to the umbrella diameter of about 30-50 cm. In addition, the shapes of various jellyfishes are beautiful and have strong ornamental value, even the movement rhythm of the jellyfishes is helpful for the psychological discongest of people, and the trend of cultivating the jellyfishes in a plurality of ocean halls and even individuals is already aroused, so that the jellyfishes have strong commercial value. In the process of artificial propagation of the jellyfishes, the jellyfishes need to grow in an environment with high water mobility after propagation so as to simulate the marine environment where wild jellyfishes live.

However, jellyfishes need to grow in a specific environment after breeding, the requirement on water quality is high, residual impurities in water need to be removed, and the specific dissolved oxygen and water flow environment is met. In the traditional culture mode, in the process of replacing water, time and labor are wasted, jellyfishes can die due to improper operation, and the culture cost is increased; the mutagenesis of the hydroids requires low-temperature stimulation for a certain time, the temperature difference between the mutagenesis and the culturing temperature of the jellyfish is about 10 ℃, single-season production is mostly carried out in a specific season in the traditional production, the hydroids can not be induced and cultured at the same time, and the continuous large-scale production is not facilitated.

Disclosure of Invention

Aiming at the technical problems, the invention provides an energy breeding system which can circulate and replace water in a culture tank and is beneficial to the survival of the hydrozoa of the medusa.

The technical scheme of the invention is as follows: an intelligent breeding system for medusa hydroids comprises a breeding cylinder, a filtering cylinder, a thermostat, pipe fittings, a colonization board assembly and an Internet of things device; the culture tank comprises an upper culture tank and a lower culture tank; the filtering cylinder comprises an upper filtering cylinder and a lower filtering cylinder; the constant temperature machine comprises a first constant temperature machine and a second constant temperature machine; the pipe fittings comprise a water inlet pipe, a circulating water pipe and a water distribution pipe; the colonization plate component comprises a rotation limiting colonization plate frame and a rotation frame plate; the Internet of things device comprises a controller, a processor, a camera and a display; the top of the culture tank is provided with a lighting coral lamp, the interior of the culture tank is provided with an in-tank circulator, a guide plate and a top drainage water filtration perforation guide plate, the guide plates are symmetrically arranged at two sides of the bottom of the culture tank, the top drainage water filtration perforation guide plate is arranged at the top of the interior of the culture tank, the aperture of the top drainage water filtration perforation guide plate is 2mm, the row spacing is 20mm, the number of the upper culture tanks is 8-12, 8-12 upper culture tanks are arranged in parallel, the number of the lower culture tanks is 3-7, 3-7 lower culture tanks are arranged in parallel, and the 3-7 lower culture tanks are positioned at the lower ends of the 8-12 upper culture tanks; the upper filtering cylinder is arranged among 8-12 upper breeding cylinders, a first partition plate is arranged in the upper filtering cylinder, two first partition plates are arranged in each partition plate, the upper filtering cylinder is divided into three areas by the two first partition plates, a first mute water pump and a first temperature sensor are arranged in the leftmost area in the upper filtering cylinder, inverted filtering filling filter materials are arranged in the other two areas, the lower filtering cylinder is arranged among 5 lower breeding cylinders, a second partition plate is arranged in the lower filtering cylinder, two second partition plates are arranged in each partition plate, the lower filtering cylinder is divided into three areas by the two second partition plates, a second mute water pump and a second temperature sensor are arranged in the leftmost area in the lower filtering cylinder, and inverted filtering filling filter materials are arranged in the other two areas; the water inlet pipe is respectively connected with the culture tank and the filter tank, the circulating water pipe is arranged at the joint of the water inlet pipe with the culture tank and the filter tank, two water distribution pipes are arranged, the two water distribution pipes are respectively connected with the upper culture tank and the lower culture tank, and the joints are respectively provided with a water distribution device; the first thermostat is connected with the upper water distribution pipe, the temperature of the first thermostat is set to be 20-24 ℃, the second thermostat is connected with the lower water distribution pipe, and the temperature of the second thermostat is set to be 12-16 ℃; the rotary limiting colonization plate frame is respectively and movably arranged in the upper breeding cylinder and the lower breeding cylinder, and the rotary frame plate is movably arranged on the rotary positioning colonization plate frame; the controller is commercially available, the controller is respectively connected with the first mute water pump, the second mute water pump, the first thermostat, the second thermostat, the lighting coral lamp, the camera and the display, the processor is respectively connected with the controller, the first temperature sensor and the second temperature sensor, and the first mute water pump, the second mute water pump, the first thermostat, the second thermostat, the lighting coral lamp and the display are powered by an external power supply.

Furthermore, the upper culture cylinder and the lower culture cylinder are identical in structure, the length, width and height of the inner diameter of the upper culture cylinder are respectively 300 mm 120 mm 200mm, the length, width and height of the inner diameter of the lower culture cylinder are respectively 360 mm 200mm 250mm, and the distance between the upper edge of the lower culture cylinder and the bottom of the upper culture cylinder is 400 mm.

Furthermore, the upper filter cylinder and the lower filter cylinder have the same structure, the inner diameter length, width and height of the upper filter cylinder are respectively 300 × 200mm, and the inner diameter length, width and height of the lower filter cylinder are respectively 360 × 200 × 250 mm.

Furthermore, the space ratio of the three areas in the upper filtering cylinder is 2:1:1, the space ratio of the three areas in the lower filtering cylinder is 2:1:1, the width of a water pump grid is guaranteed, a matched water pump can be stored, the water pump can be placed in water in a low-temperature period, and the water pump can be used outside the cylinder in a high-temperature period.

Furthermore, the circulating water pipe comprises a bottom water drainage pipe and a top water drainage pipe, the bottom water drainage pipe and the top water drainage pipe are respectively connected with the water inlet pipe, the bottom water drainage pipe is arranged at the bottom of the culture cylinder, the bottom water drainage pipe is flush with the bottom end inside the culture cylinder, an arc-shaped water filtration sieve plate and a sealing pad are arranged at the inner end of the bottom water drainage pipe, so that food residues and dead and fallen polyps are conveniently removed, and the filter screen is added for leaking, so that the cleaning is convenient; the top drainage pipe is arranged at the top of the side wall of the culture tank, the inner end of the top drainage pipe is movably provided with a three-way joint, and the three-way joint is positioned on one side of the top drainage water filtering and punching guide plate and can flexibly adjust the drainage mode and the water level.

Furthermore, the water distribution device comprises a vertical pipe and a horizontal pipe, the vertical pipe is connected with the water distribution pipe, the vertical pipe is a telescopic sleeve, the horizontal pipe is movably arranged at the lower end of the vertical pipe, a plurality of water outlet holes are uniformly formed in the horizontal pipe, the telescopic vertical pipe is convenient for changing the water inlet position, the horizontal pipe is uniformly provided with a plurality of water outlet holes and can rotate, the water outlet trend can be adjusted to be beneficial to water exchange around the polyp colonizing plate, and meanwhile, the impact is avoided being too large.

Further, rotatory spacing colonizing grillage includes frame and underframe, it is fixed through fastening bolt between frame and the underframe to go up, it is provided with the shock insulator to go up frame upper surface four corners position, both ends all are provided with the side and stand the draw-in groove about going up the frame upper surface, both ends all are provided with the shaft groove about the underframe upper surface, terminal surface four corners position is provided with the underframe foot under the underframe, the rotating frame plate is provided with 3, connect through the rotation axis between the three rotating frame plate, be provided with the spin control spare on the colonizing grillage, the spin control spare provides power for the rotating frame plate, three rotating frame plate passes through rotation axis and side and stands draw-in groove and.

Furthermore, the mute water pump I and the mute water pump II are amphibious variable frequency mute pumps, and the flow rate is adjustable.

The working principle of the invention is as follows: when the device is used, one end of the water inlet pipe is connected with an external water source, the other end of the water inlet pipe is respectively connected with the bottom drain pipe and the top drain pipe, the bottom drain pipe is connected with the bottoms of the culture tanks, the inner end of the bottom drain pipe is provided with the arc-shaped water filtering sieve plate and the sealing pad, so that food residues and dead and fallen hydroids can be conveniently removed, and the arc-shaped water filtering sieve plate is added to facilitate cleaning; the top drainage pipe is connected with the top end of the side wall of each culture tank, and the inner end of the top drainage pipe is provided with a three-way joint, so that the drainage mode and the water level can be flexibly adjusted; the water distribution pipe is connected with each culture tank and is connected with the water distribution device; the rotary limiting colonization plate frame is placed in the culture tank, an external power supply is connected, the mute water pump I, the mute water pump II and the thermostat are respectively connected with the water distribution pipe, the state of the culture tank is observed in real time through the display and the camera, the temperature of the water body in the filter tank is sensed through the temperature sensor, and the temperature of the water body in the culture tank is adjusted through the thermostat through the controller thermostat.

Compared with the prior art, the invention has the beneficial effects that: the invention has simple structure, can circularly clean and replace the water body, is beneficial to the survival of the jellyfish hydroid, improves the economic benefit and reduces the culture cost; the telescopic vertical pipe is convenient for changing the water inlet position, the transverse pipe is uniformly provided with a plurality of water outlet holes and can rotate, the water outlet trend can be adjusted to be beneficial to water exchange around the hydrozoa colonization plate, and overlarge impact is avoided; the arrangement of the three-way joint can flexibly adjust the drainage mode and the water level; the end part of a drain pipe in the box is flush with the bottom of the culture tank, and is used for removing food residues and dead and fallen hydroids and adding a water filtering net for leakage, so that the cleaning is convenient.

Drawings

FIG. 1 is a system framework diagram of the present invention;

FIG. 2 is a structural view of the culture tank of the present invention;

FIG. 3 is a block diagram of the rotation limiting colonizing plate support of the present invention;

FIG. 4 is a top view of the upper frame of the present invention;

FIG. 5 is a top view of the lower frame of the present invention;

fig. 6 is a structural view of the rotating frame plate of the present invention;

wherein, 1-culture tank, 10-upper culture tank, 11-lower culture tank, 12-lighting coral lamp, 13-in-tank circulator, 14-guide plate, 15-top drainage water filtration perforated guide plate, 2-filter tank, 20-upper filter tank, 200-first baffle, 21-lower filter tank, 210-second baffle, 22-first silent water pump, 23-first temperature sensor, 24-second silent water pump, 25-second temperature sensor, 3-thermostat, 30-first thermostat, 31-second thermostat, 4-pipe fittings, 40-water inlet pipe, 41-circulating water pipe, 410-bottom drain pipe, 411-top drain pipe, 412-arc drainage sieve plate, 413-sealing pad, 414-three-way joint, 42-water distribution pipe, 43-water distribution device, 430-vertical pipe, 431-horizontal pipe, 5-colonization plate component, 50-rotation limiting colonization plate frame, 500-upper frame, 5000-spacer, 5001-side vertical clamping groove, 501-lower frame, 5010-shaft groove, 5011-lower frame foot, 51-rotation frame plate, 52-rotation control and 6-internet of things device.

Detailed Description

Example (b): the intelligent breeding system for the medusa hydroids as shown in fig. 1 and 2 comprises a breeding cylinder 1, a filtering cylinder 2, a thermostat 3, a pipe fitting 4, a colonizing plate assembly 5 and an internet of things device 6; the culture tank 1 comprises an upper culture tank 10 and a lower culture tank 11; the top of the culture tank 1 is provided with a lighting coral lamp 12, the culture tank 1 is internally provided with an in-tank circulator 13, a guide plate 14 and a top drainage water filtration perforation guide plate 15, the guide plate 14 is symmetrically arranged at two sides of the bottom of the culture tank 1, the top drainage water filtration perforation guide plate 15 is arranged at the top of the interior of the culture tank 1, the aperture of the top drainage water filtration perforation guide plate 15 is 2mm, the row spacing is 20mm, 10 upper culture tanks 10 are arranged in parallel, 5 lower culture tanks 11 are arranged in parallel, and the 5 lower culture tanks 11 are positioned at the lower ends of the 10 upper culture tanks 10; the upper culture cylinder 10 and the lower culture cylinder 11 have the same structure, the length, width and height of the inner diameter of the upper culture cylinder 10 are respectively 300 × 120 × 200mm, the length, width and height of the inner diameter of the lower culture cylinder 11 are respectively 360 × 200 × 250mm, and the distance between the upper edge of the lower culture cylinder 11 and the bottom of the upper culture cylinder 10 is 400 mm;

as shown in fig. 1, the filter vat 2 comprises an upper filter vat 20 and a lower filter vat 21; the upper filtering cylinder 20 is arranged among the 10 upper breeding cylinders 10, a first clapboard 200 is arranged in the upper filtering cylinder 20, two first clapboards 200 are arranged in the upper filtering cylinder 20, the two first clapboards 200 divide the interior of the upper filtering cylinder 20 into three areas, a first silent water pump 22 and a first temperature sensor 23 are arranged in the leftmost area in the upper filtering cylinder 20, the other two areas are internally provided with inverted filter filling filter materials, the lower filter cylinder 21 is arranged between 5 lower culture cylinders 11, the inner part of the lower filter cylinder 21 is provided with two clapboards 210, the two clapboards 210 divide the inner part of the lower filter cylinder 21 into three areas, the leftmost area in the lower filter cylinder 21 is internally provided with a mute water pump II 24 and a temperature sensor II 25, the other two areas are internally provided with inverted filter filling filter materials, the mute water pump I22 and the mute water pump II 24 are amphibious variable-frequency mute pumps, and the flow rate is adjustable; the upper filtering cylinder 20 and the lower filtering cylinder 21 have the same structure, the length, width and height of the inner diameter of the upper filtering cylinder 20 are respectively 300 × 200mm, and the length, width and height of the inner diameter of the lower filtering cylinder 21 are respectively 360 × 200 × 250 mm; the space ratio of the three areas in the upper filtering cylinder 20 to the three areas in the lower filtering cylinder 21 is 2:1:1, the space ratio of the three areas in the upper filtering cylinder to the three areas in the lower filtering cylinder 21 is 2:1:1, the width of a water pump grid is ensured, a matched water pump can be stored, the water pump can be placed in water in a low-temperature period, and the water pump can be used outside the cylinder in a high-temperature;

as shown in fig. 1, the thermostat 3 includes a first thermostat 30 and a second thermostat 31; the first thermostat 30 is connected with the upper water distribution pipe 42, the temperature of the first thermostat 30 is set to be 23 ℃, the second thermostat 31 is connected with the lower water distribution pipe 42, and the temperature of the second thermostat 31 is set to be 14 ℃;

as shown in fig. 1 and 2, the pipe fitting 4 includes a water inlet pipe 40, a water circulating pipe 41, and a water distribution pipe 42; the water inlet pipe 40 is respectively connected with the culture tank 1 and the filter tank 2, the circulating water pipe 41 comprises a bottom water drainage pipe 410 and a top water drainage pipe 411, the bottom water drainage pipe 410 and the top water drainage pipe 411 are respectively connected with the water inlet pipe 40, the bottom water drainage pipe 410 is arranged at the bottom of the culture tank 1, the bottom water drainage pipe 410 is flush with the bottom end inside the culture tank 1, an arc-shaped water filtration sieve plate 412 and a sealing pad 413 are arranged at the inner end of the bottom water drainage pipe 410, so that food residues and dead and fallen hydroids can be conveniently removed, a water filtration net is added, and the; the top drainage pipe 411 is arranged at the top of the side wall of the culture tank 1, a three-way joint 414 is movably arranged at the inner end of the top drainage pipe 411, and the three-way joint 414 is positioned at one side of the top drainage water filtration perforation guide plate 15, so that the drainage mode and the water level can be flexibly adjusted; the two water distribution pipes 42 are respectively connected with the upper culture tank 10 and the lower culture tank 11, the water distribution devices 43 are respectively arranged at the joints, each water distribution device 43 comprises a vertical pipe 430 and a transverse pipe 431, the vertical pipes 430 are connected with the water distribution pipes 42, the vertical pipes 430 are telescopic sleeves, the transverse pipes 431 are movably arranged at the lower ends of the vertical pipes 430, a plurality of water outlet holes are uniformly formed in the transverse pipes 431, the telescopic vertical pipes 430 are convenient to change water inlet positions, the transverse pipes 431 are uniformly provided with a plurality of water outlet holes, the transverse pipes 431 can rotate, the water outlet trend can be adjusted to facilitate water exchange around the polyp colonized plate block, and meanwhile, overlarge impact is avoided;

as shown in fig. 3, 4, 5 and 6, the colonizing plate assembly 5 comprises a rotary positioning colonizing plate frame 50 and a rotary frame plate 51; the rotary positioning and colonization plate frame 50 is movably arranged inside the upper breeding cylinder 10 and the lower breeding cylinder 11 respectively, the rotary frame plates 51 are movably arranged on the rotary positioning and colonization plate frame 50, the rotary positioning and colonization plate frame 50 comprises an upper frame 500 and a lower frame 501, the upper frame 500 and the lower frame 501 are fixed through fastening bolts, four corners of the upper surface of the upper frame 500 are provided with spacers 5000, the left end and the right end of the upper surface of the upper frame 500 are provided with side vertical clamping grooves 5001, the left end and the right end of the upper surface of the lower frame 501 are provided with shaft grooves 5010, four corners of the lower end surface of the lower frame 501 are provided with lower frame feet 5011, the rotary frame plates 51 are provided with 3, the three rotary frame plates 51 are connected through rotary shafts, the rotary control 52 is arranged on the colonization plate frame 50, the rotary control 52 provides power for the rotary frame plates 51, and the three rotary frame plates 51 are. (ii) a

As shown in fig. 1, the internet of things device 6 includes a controller, a processor, a camera, and a display; the controller is commercially available, the controller is respectively connected with the first silent water pump 22, the second silent water pump 24, the first thermostat 30, the second thermostat 31, the lighting coral lamp 7, the camera and the display, the processor is respectively connected with the controller, the first temperature sensor 23 and the second temperature sensor 25, and the first silent water pump 22, the second silent water pump 24, the first thermostat 30, the second thermostat 31, the lighting coral lamp 7 and the display are powered by an external power supply.

When the device is used, one end of the water inlet pipe 40 is connected with an external water source, the other end of the water inlet pipe is respectively connected with the bottom drain pipe 410 and the top drain pipe 411, the bottom drain pipe 410 is connected with the bottom of each culture cylinder 1, the inner end of the bottom drain pipe 410 is provided with the arc-shaped water filtering sieve plate 412 and the sealing pad 413, so that food residues and dead and fallen hydroids can be conveniently discharged, and the arc-shaped water filtering sieve plate 412 is added, so that the; the top drainage pipe 411 is connected with the top end of the side wall of each culture tank, and a three-way joint 414 is arranged at the inner end of the top drainage pipe 411, so that the drainage mode and the water level can be flexibly adjusted; the water distribution pipe 42 is connected with each culture tank 1 and is connected with a water distribution device 43; the rotary limiting colonization plate frame 50 is placed in the culture tank, an external power supply is connected, the first silent water pump 22, the second silent water pump 24 and the thermostat 3 are respectively connected with the water distribution pipe 42, the state of the culture tank 1 is observed in real time through a display and a camera, the temperature of the water body in the filter tank 2 is sensed through the temperature sensor, and the temperature of the water body in the culture tank 1 is adjusted through the thermostat 3 through the controller thermostat 3.

Claims

1. An intelligent breeding system for a hydrozoa of a medusa is characterized by comprising a breeding cylinder (1), a filtering cylinder (2), a thermostat (3), a pipe fitting (4), a colonizing plate assembly (5) and an Internet of things device (6); the culture tank (1) comprises an upper culture tank (10) and a lower culture tank (11); the filter cylinder (2) comprises an upper filter cylinder (20) and a lower filter cylinder (21); the thermostat (3) comprises a first thermostat (30) and a second thermostat (31); the pipe fitting (4) comprises a water inlet pipe (40), a circulating water pipe (41) and a water distribution pipe (42); the colonization plate component (5) comprises a rotation limiting colonization plate frame (50) and a rotation frame plate (51); the Internet of things device (6) comprises a controller, a processor, a camera and a display; the culture tank is characterized in that lighting coral lamps (12) are arranged at the top of the culture tank (1), an in-tank circulator (13), a guide plate (14) and a top drainage water filtration perforation guide plate (15) are arranged inside the culture tank (1), the guide plate (14) is symmetrically arranged on two sides of the bottom of the culture tank (1), the top drainage water filtration perforation guide plate (15) is arranged at the top end inside the culture tank (1), 8-12 upper culture tanks (10) are arranged in parallel, 3-7 lower culture tanks (11) are arranged in parallel, and 3-7 lower culture tanks (11) are positioned at the lower ends of the 8-12 upper culture tanks (10); the upper filtering cylinder (20) is arranged among 8-12 upper breeding cylinders (10), a first partition plate (200) is arranged in the upper filtering cylinder (20), two first partition plates (200) are arranged in the upper filtering cylinder (20), the upper filtering cylinder (20) is divided into three areas by the two first partition plates (200), a first silent water pump (22) and a first temperature sensor (23) are arranged in the leftmost area in the upper filtering cylinder (20), inverted filtering filling filter materials are arranged in the other two areas, the lower filtering cylinder (21) is arranged among 5 lower breeding cylinders (11), a second partition plate (210) is arranged in the lower filtering cylinder (21), the two second partition plates (210) are arranged, the lower filtering cylinder (21) is divided into three areas by the two partition plates (210), and a second silent water pump (24) and a second temperature sensor (25) are arranged in the leftmost area in the lower filtering cylinder (21), the other two areas are internally provided with inverted filter filling filter materials; the water inlet pipe (40) is respectively connected with the culture tank (1) and the filter tank (2), the circulating water pipe (41) is arranged at the joint of the water inlet pipe (40) and the culture tank (1) and the filter tank (2), two water distribution pipes (42) are arranged, the two water distribution pipes (42) are respectively connected with the upper culture tank (10) and the lower culture tank (11), and the joints are both provided with water distribution devices (43); the first thermostat (30) is connected with the upper water distribution pipe (42), and the second thermostat (31) is connected with the lower water distribution pipe (42); the rotary limiting colonization plate frame (50) is respectively and movably arranged in the upper breeding cylinder (10) and the lower breeding cylinder (11), and the rotary frame plate (51) is movably arranged on the rotary positioning colonization plate frame (50); the controller is respectively connected with the first mute water pump (22), the second mute water pump (24), the first thermostat (30), the second thermostat (31), the lighting coral lamp (7), the camera and the display, the processor is respectively connected with the controller, the first temperature sensor (23) and the second temperature sensor (25), and the first mute water pump (22), the second mute water pump (24), the first thermostat (30), the second thermostat (31), the lighting coral lamp (7) and the display are powered by an external power supply;

the upper breeding cylinder (10) and the lower breeding cylinder (11) are identical in structure, the length, width and height of the inner diameter of the upper breeding cylinder (10) are respectively 300, 120, 200mm, the length, width and height of the inner diameter of the lower breeding cylinder (11) are respectively 360, 200 and 250mm, and the distance between the upper edge of the lower breeding cylinder (11) and the bottom of the upper breeding cylinder (10) is 400 mm;

the upper filtering cylinder (20) and the lower filtering cylinder (21) are identical in structure, the length, width and height of the inner diameter of the upper filtering cylinder (20) are respectively 300 mm 200mm, and the length, width and height of the inner diameter of the lower filtering cylinder (21) are respectively 360 mm 200mm and 250 mm;

the space ratio of the three areas in the upper filtering cylinder (20) is 2:1:1, and the space ratio of the three areas in the lower filtering cylinder (21) is 2:1: 1;

the circulating water pipe (41) comprises a bottom water drainage pipe (410) and a top water drainage pipe (411), the bottom water drainage pipe (410) and the top water drainage pipe (411) are respectively connected with the water inlet pipe (40), the bottom water drainage pipe (410) is arranged at the bottom of the breeding cylinder (1), the bottom water drainage pipe (410) is flush with the bottom end inside the breeding cylinder (1), and an arc-shaped water filtration sieve plate (412) and a sealing pad (413) are arranged at the inner end of the bottom water drainage pipe (410); the top drainage pipe (411) is arranged at the top of the side wall of the culture tank (1), a three-way joint (414) is movably arranged at the inner end of the top drainage pipe (411), and the three-way joint (414) is positioned at one side of the top drainage water filtration perforation guide plate (15);

the rotary limiting colonizing plate frame (50) comprises an upper frame (500) and a lower frame (501), the upper frame (500) and the lower frame (501) are fixed through fastening bolts, a spacer (5000) is arranged at the four-angle position of the upper surface of the upper frame (500), side vertical clamping grooves (5001) are formed in the left end and the right end of the upper surface of the upper frame (500), shaft grooves (5010) are formed in the left end and the right end of the upper surface of the lower frame (501), 3 rotating frame plates (51) are arranged, the three rotating frame plates (51) are connected through a rotary shaft, a rotary control (52) is arranged on the colonizing plate frame (50), the rotary control (52) provides power for the rotating frame plates (51), and the three rotating frame plates (51) are movably clamped with the side vertical clamping grooves (5001) and the shaft grooves (5010) through the rotary shaft;

the first mute water pump (22) and the second mute water pump (24) are amphibious variable-frequency mute pumps, and the flow rate is adjustable.