CN113973767A - Intelligent disinfection oxygenation circulating device for freshwater fish artificial culture pond - Google Patents

Abstract

The invention discloses an intelligent disinfection oxygenation circulating device for an artificial freshwater fish culture pond, belonging to the technical field of freshwater fish culture, comprising: an oxygenation mechanism; the driving mechanism is arranged outside the oxygen increasing mechanism; the stirring mechanism is arranged in the inner cavity of the oxygenation mechanism; the top cover is arranged at the top of the oxygenation mechanism; the culture pond is connected with a liquid outlet of the oxygenation mechanism; the circulating water sump is connected with a liquid outlet of the culture pond; the guide top cover is arranged at the top of the circulating water bin; the lifting driving mechanism is arranged at the top of the guide top cover; the filtering mechanism is arranged on the guide mechanism of the guide top cover, and the water in the artificial culture pond can be subjected to circulating oxygenation, so that the water quality of the artificial culture pond is effectively improved.

Description

Intelligent disinfection oxygenation circulating device for freshwater fish artificial culture pond

Technical Field

The invention relates to the technical field of freshwater aquaculture, in particular to an intelligent disinfection oxygenation circulating device for an artificial freshwater fish culture pond.

Background

Freshwater aquaculture refers to the production of raising and breeding aquatic economic animals (fish, shrimp, crab, shellfish and the like) and aquatic economic plants by using ponds, reservoirs, lakes, rivers and other inland water areas (containing brackish water), and is an important component of inland aquaculture.

In the traditional freshwater fish culture, workers generally observe water quality by experience to determine whether to disinfect a culture pond or not and whether to turn on an oxygenation pump to oxygenate a water body.

Disclosure of Invention

The invention aims to provide an intelligent disinfection and oxygenation circulating device for a freshwater fish artificial culture pond, and aims to solve the problems that whether the culture pond is disinfected or not and whether an oxygenation pump needs to be started to oxygenate water bodies or not are generally determined by observing water quality through the experience of workers in the traditional freshwater fish culture provided by the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a pond intelligence disinfection oxygenation circulating device is bred to freshwater fish manual work, includes:

an oxygenation mechanism;

the driving mechanism is arranged outside the oxygen increasing mechanism, and an inner cavity of the driving mechanism is communicated with an inner cavity of the oxygen increasing mechanism;

the stirring mechanism is arranged in the inner cavity of the oxygen increasing mechanism, and part of components on the stirring mechanism penetrate through the bottom of the oxygen increasing mechanism and are arranged in the inner cavity of the driving mechanism;

the top cover is arranged at the top of the oxygenation mechanism;

the culture pond is connected with a liquid outlet of the oxygenation mechanism;

the circulating water sump is connected with a liquid outlet of the culture pond;

the guide top cover is arranged at the top of the circulating water bin;

the lifting driving mechanism is arranged at the top of the guide top cover, and part of components on the lifting driving mechanism penetrate through the bottom of the guide top cover and are inserted into an inner cavity of the circulating water bin;

the filtering mechanism is arranged on the guide mechanism of the guide top cover and connected with the lifting driving mechanism, and the filtering mechanism is arranged in the inner cavity of the circulating water bin.

Preferably, the oxygenation mechanism comprises:

a mixing barrel;

the air inlet joint is arranged at the top of the side wall of the mixing barrel, and the inner cavity of the air inlet joint is communicated with the inner cavity of the mixing barrel;

the water inlet connector is arranged at the top of one side, far away from the air inlet connector, of the mixing barrel, and the inner cavity of the first water inlet connector is communicated with the inner cavity of the mixing barrel;

the first water discharging joint is arranged at the bottom of one side, far away from the air inlet joint, of the mixing barrel, and the inner cavity of the first water discharging joint is communicated with the inner cavity of the mixing barrel;

an oxygen content sensor mounted on a sidewall of an inner cavity of the mixing barrel.

Preferably, the drive mechanism includes:

the driving mounting seat is mounted at the center of the bottom of the mixing barrel;

the second water inlet joint is arranged on the side wall of the driving mounting seat, and the inner cavity of the second water inlet joint is communicated with the inner cavity of the driving mounting seat;

the first drainage pipeline is arranged on the side wall of the driving mounting seat, an inner cavity of the first drainage pipeline is communicated with an inner cavity of the driving mounting seat, and the first drainage pipeline is symmetrical to the second water inlet joint;

the water pump is arranged at one end, far away from the driving mounting seat, of the first drainage pipeline;

the second drainage pipeline is installed keep away from on the water pump the one end of first drainage pipeline, keep away from on the second drainage pipeline the one end of water pump with first water supply connector is connected.

Preferably, the stirring mechanism includes:

the driving shaft is arranged in the inner cavity of the mixing barrel through a bearing, penetrates through the bottom of the mixing barrel and is connected with the bottom of the inner cavity of the driving mounting seat through a bearing;

the stirring blades are uniformly arranged on the outer wall of the driving shaft in an annular shape and are arranged in the inner cavity of the mixing barrel;

the driving rod is uniformly arranged on the outer wall of the driving shaft in an annular mode, the driving rod is arranged at the lower end of the stirring blade, the driving rod is arranged in an inner cavity of the driving mounting seat, and the driving rod corresponds to the second water inlet joint.

Preferably, the culture pond comprises:

a culture pond body;

two connectors, two the symmetrical setting of connector is in breed the bottom of two broadsides of pond body, the inner chamber of connector with breed the inner chamber of pond body and link up mutually, two one in the connector with first water drainage connects and is connected.

Preferably, the circulating water sump includes:

a circulating water sump body;

the third water inlet joint is arranged at the top of the side wall of the circulating water sump body, and the inner cavity of the third water inlet joint is communicated with the inner cavity of the circulating water sump body;

one end of the water inlet pipeline is installed at one end, far away from the circulating water sump body, of the third water inlet joint, and one end, far away from the third water inlet joint, of the water inlet pipeline is connected with the other connector of the two connectors;

and the second drainage joint is arranged on the circulating water sump body and is far away from the bottom of one side of the third water inlet joint, the inner cavity of the second drainage joint is communicated with the inner cavity of the circulating water sump body, and the second drainage joint is connected with the second water inlet joint through a circulating pump.

Preferably, the guide cap includes:

the top cover body is arranged at the top of the circulating water sump body;

the mounting hole is formed in the center of the top cover body and penetrates through the bottom of the top cover body;

the two guide rods are symmetrically arranged on the left side and the right side of the bottom of the top cover body and are inserted into the inner cavity of the circulating water bin body.

Preferably, the elevation driving mechanism includes:

the motor is arranged at the top of the top cover body and corresponds to the mounting hole;

and the screw rod is arranged on an output shaft of the motor and is arranged in the inner cavity of the circulating water sump body.

Preferably, the filter mechanism comprises:

the movable plate is arranged in the inner cavity of the circulating water sump body, and the side wall of the movable plate is in contact with the side wall of the inner cavity of the circulating water sump body;

the threaded hole is formed in the center of the top of the moving plate and penetrates through the bottom of the moving plate;

the two guide holes are symmetrically formed in the left side and the right side of the top of the moving plate and penetrate through the bottom of the moving plate;

the filtering holes are uniformly formed in the top of the moving plate and penetrate through the bottom of the moving plate.

Compared with the prior art, the invention has the beneficial effects that: the water in the artificial culture pond can be subjected to circulating oxygenation, the water quality of the artificial culture pond is effectively improved, the connector is connected with the first drainage connector through the electromagnetic pump, the electromagnetic pump is connected with the PLC, the PLC is electrically connected with the oxygen content sensor, the connector and the culture pond body are integrally processed, the oxygen content of the water in the mixing barrel is detected through the oxygen content sensor, when the oxygen content of the water in the mixing barrel meets the requirement, the oxygen content sensor sends a signal to the PLC, the electromagnetic pump is controlled to be started through the PLC, the water in the mixing barrel is pumped into the inner cavity of the culture pond body, the water in the culture pond body is replaced, and the water quality in the culture pond body is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the aeration mechanism of the present invention;

FIG. 3 is a schematic view of the driving mechanism of the present invention;

FIG. 4 is a schematic structural view of a stirring mechanism according to the present invention;

FIG. 5 is a schematic view of the structure of a culture pond of the present invention;

FIG. 6 is a schematic view of the structure of the circulating water sump according to the present invention;

FIG. 7 is a schematic view of the structure of the guide cap of the present invention;

FIG. 8 is a schematic structural view of a lift driving mechanism according to the present invention;

fig. 9 is a schematic view of the structure of the filter mechanism of the present invention.

In the figure: 100 oxygenation mechanisms, 110 mixing barrels, 120 air inlet joints, 130 first water inlet joints, 140 water outlet joints, 150 oxygen content sensors, 200 driving mechanisms, 210 driving installation seats, 220 second water inlet joints, 230 first water outlet pipes, 240 water pumps, 250 second water outlet pipes, 300 stirring mechanisms, 310 driving shafts, 320 stirring blades, 330 driving rods, 400 top covers, 500 culture ponds, 510 culture pond bodies, 520 connecting heads, 600 circulating water ponds, 610 circulating water pond bodies, 620 third water inlet joints, 630 water inlet pipes, 640 second water outlet joints, 700 guide top covers, 710 top cover bodies, 720 installation holes, 730 guide rods, 800 lifting driving mechanisms, 810 motors, 820 screw rods, 900 filtering mechanisms, 910, 920 moving plate threaded holes, 930 guide holes and 940 filtering holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides an intelligent disinfection oxygenation circulating device for an artificial freshwater fish culture pond, which can circularly oxygenate water in the artificial culture pond, effectively improves the water quality of the artificial culture pond, and comprises the following components with reference to a graph 1: the device comprises an oxygenation mechanism 100, a driving mechanism 200, a stirring mechanism 300, a top cover 400, a culture pond 500, a circulating water sump 600, a guide top cover 700 and a lifting driving mechanism 800;

referring to fig. 1-2, the oxygenation mechanism 100 includes:

a mixing tub 110;

the air inlet joint 120 is arranged at the top of the side wall of the mixing barrel 110, the inner cavity of the air inlet joint 120 is communicated with the inner cavity of the mixing barrel 110, the air inlet joint 120 and the mixing barrel 110 are integrally processed, the air inlet joint 120 is connected with the oxygen storage tank through an air pump, and oxygen is pumped into the inner cavity of the mixing barrel 110 through the air pump;

the water inlet interface 130 is arranged at the top of one side of the mixing barrel 110 far away from the air inlet joint 120, the inner cavity of the first water inlet joint 130 is communicated with the inner cavity of the mixing barrel 110, and the water inlet interface 130 and the mixing barrel 110 are integrally processed;

the first water discharge joint 140 is arranged at the bottom of the mixing barrel 110 far away from the air inlet joint 120, the inner cavity of the first water discharge joint 140 is communicated with the inner cavity of the mixing barrel 110, and the first water discharge joint 140 and the mixing barrel 110 are integrally processed;

the oxygen content sensor 150 is arranged on the side wall of the inner cavity of the mixing barrel 110, and the oxygen content of the water in the mixing barrel 110 is detected through the oxygen content sensor 150;

referring to fig. 1-3, the driving mechanism 200 is installed outside the oxygen increasing mechanism 100, an inner cavity of the driving mechanism 200 is communicated with an inner cavity of the oxygen increasing mechanism 100, and the driving mechanism 200 includes:

the driving mounting seat 210 is detachably mounted at the center of the bottom of the mixing tub 110 by a bolt;

the second water inlet joint 220 is arranged on the side wall of the driving installation seat 210, the inner cavity of the second water inlet joint 220 is communicated with the inner cavity of the driving installation seat 210, the second water inlet joint 220 and the driving installation seat 210 are integrally processed, and filtered water enters the inner cavity of the driving installation seat 210 through the second water inlet joint 220;

the first drainage pipe 230 is arranged on the side wall of the drive mounting base 210, the inner cavity of the first drainage pipe 230 is communicated with the inner cavity of the drive mounting base 210, the first drainage pipe 230 is symmetrical to the second water inlet joint 220, and the first drainage pipe 230 and the drive mounting base 210 are integrally processed;

the water pump 240 is installed at one end of the first drain pipe 230 away from the driving installation base 210;

the second drainage pipeline 250 is installed at one end of the water pump 240 far away from the first drainage pipeline 230, one end of the second drainage pipeline 250 far away from the water pump 240 is connected with the first water inlet joint 130, and the water entering the drive installation seat 210 is pumped into the inner cavity of the mixing barrel 110 to be mixed with oxygen through the matching use of the first drainage pipeline 230, the water pump 240 and the second drainage pipeline 250, so that the oxygen content of water is increased;

referring to fig. 1-4, the stirring mechanism 300 is installed in the inner cavity of the oxygen increasing mechanism 100, and some components of the stirring mechanism 300 are installed in the inner cavity of the driving mechanism 200 through the bottom of the oxygen increasing mechanism 100, and the stirring mechanism 300 includes:

the driving shaft 310 is installed in the inner cavity of the mixing barrel 110 through a bearing, and the driving shaft 310 penetrates through the bottom of the mixing barrel 110 and is connected with the bottom of the inner cavity of the driving installation seat 210 through a bearing;

the stirring blades 320 are uniformly arranged on the outer wall of the driving shaft 310 in an annular shape, the stirring blades 320 are arranged in the inner cavity of the mixing barrel 110, and the stirring blades 320 and the driving shaft 310 are integrally processed;

the driving rods 330 are uniformly arranged on the outer wall of the driving shaft 310 in an annular shape, the driving rods 330 are arranged at the lower ends of the stirring blades 320, the driving rods 330 are arranged in the inner cavities of the driving installation seats 210, the driving rods 330 correspond to the second water inlet joints 220, the driving rods 330 and the driving shaft 310 are integrally processed, filtered water enters the inner cavities of the driving installation seats 210 through the second water inlet joints 220, the driving rods 330 are driven to rotate through the impact force of water flow, the driving shafts 310 are driven to rotate through the driving rods 330, the stirring blades 320 are driven to rotate through the driving shafts 310, water entering the mixing barrel 110 is stirred through the stirring blades 320, the water and oxygen are mixed, and the oxygen content of the water is improved;

referring to fig. 1-2 again, the top cover 400 is installed on the top of the mixing tub 110 through a threaded connection, and a sealing ring is embedded between the top cover 400 and the mixing tub 110 to prevent oxygen leakage;

referring to fig. 1, 2 and 5, a culture pond 500 is connected to a liquid outlet of the oxygen increasing mechanism 100, and the culture pond 500 includes:

the culture pond body 510 is arranged at one side of the mixing barrel 110;

the two connectors 520 are symmetrically arranged at the bottoms of the two wide sides of the culture pond body 510, the inner cavity of the connector 520 is communicated with the inner cavity of the culture pond body 510, one connector 520 of the two connectors 520 is connected with the first drainage connector 140, the connector 520 is connected with the first drainage connector 140 through an electromagnetic pump, the electromagnetic pump is connected with a PLC (programmable logic controller) which is electrically connected with the oxygen content sensor 150, the connector 520 and the culture pond body 510 are integrally processed, the oxygen content of the water in the mixing barrel 110 is detected through the oxygen content sensor 150, when the oxygen content of the water in the mixing barrel 110 meets the requirement, the oxygen content sensor 150 sends a signal to the PLC, the PLC controller controls the electromagnetic pump to be started, the water in the mixing barrel 110 is pumped into the inner cavity of the culture pond body 510, and the water in the culture pond body 510 is replaced, improving the water quality in the culture pond body 510;

referring to fig. 1, 5 and 6, a circulating sump 600 is connected to the drain outlet of the culture pond 500, and the circulating sump 600 includes:

the circulating water sump body 610 is arranged on one side of the culture pond body 510 far away from the mixing barrel 110;

the third water inlet joint 620 is arranged at the top of the side wall of the circulating water sump body 610, the inner cavity of the third water inlet joint 620 is communicated with the inner cavity of the circulating water sump body 610, and the third water inlet joint 620 and the circulating water sump body 610 are integrally processed;

one end of the water inlet pipeline 630 is installed at one end, far away from the circulating water sump body 610, of the third water inlet joint 620, one end, far away from the third water inlet joint 620, of the water inlet pipeline 630 is connected with the other connector 520 of the two connectors 520, a water pump is installed on the outer wall of the water inlet pipeline 630, and the water in the culture pond body 510 is pumped into the inner cavity of the circulating water sump body 610 through the matching use of the water pump and the water inlet pipeline 630;

the second water discharge joint 640 is arranged at the bottom of the side, far away from the third water inlet joint 620, of the circulating water sump body 610, the inner cavity of the second water discharge joint 640 is communicated with the inner cavity of the circulating water sump body 610, the second water discharge joint 640 is connected with the second water inlet joint 220 through a circulating pump, the second water discharge joint 640 and the circulating water sump body 610 are integrally processed, and filtered water in the circulating water sump body 610 is pumped to the inner cavity of the driving installation seat 210 through the circulating pump;

referring to fig. 1, 6 and 7, a guide top cover 700 is installed on the top of the circulating water sump 600, and the guide top cover 700 includes:

the top cover body 710 is installed on the top of the circulating water sump body 610 through threaded connection;

the mounting hole 720 is formed in the center of the top cover body 710, and the mounting hole 720 penetrates through the bottom of the top cover body 710;

the two guide rods 730 are symmetrically arranged at the left side and the right side of the bottom of the top cover body 710, the guide rods 730 are inserted into the inner cavity of the circulating water sump body 610, and the guide rods 730 and the top cover body 710 are integrally processed;

referring to fig. 1 and 6 to 8, the elevating driving mechanism 800 is installed on the top of the guide top cover 700, and a part of the elevating driving mechanism 800 penetrates the bottom of the guide top cover 700 and is inserted into the inner cavity of the circulating water sump 600, and the elevating driving mechanism 800 includes:

the motor 810 is fixedly installed at the top of the top cover body 710 through bolts, and the motor 810 corresponds to the installation hole 720;

the screw 820 is installed on an output shaft of the motor 810, the screw 820 is arranged in an inner cavity of the circulating water sump body 610, and the screw 820 is driven to rotate by the motor 810;

referring to fig. 1 and fig. 6 to 9, the filtering mechanism 900 is mounted on the guide mechanism of the guide top cover 700, the filtering mechanism 900 is connected to the elevating driving mechanism 800, the filtering mechanism 900 is located in the inner cavity of the circulating water sump 600, and the filtering mechanism 900 includes:

the movable plate 910 is arranged in the inner cavity of the circulating water sump body 610, and the side wall of the movable plate 910 is in contact with the side wall of the inner cavity of the circulating water sump body 610;

the threaded hole 920 is formed in the center of the top of the moving plate 910, the threaded hole 920 penetrates through the bottom of the moving plate 910, the threaded hole 920 is matched with the screw rod 820, and the moving plate 910 is installed on the outer wall of the screw rod 820 through the threaded hole 920;

the two guide holes 930 are symmetrically formed in the left side and the right side of the top of the moving plate 910, the guide holes 930 penetrate through the bottom of the moving plate 910, the guide holes 930 are matched with the guide rods 730, the moving plate 910 is mounted on the outer walls of the guide rods 730 through the guide holes 930, and the moving plate 910 is driven to move on the outer walls of the guide rods 730 along the axial direction of the guide rods 730 through the matching of the screw rods 820 and the threaded holes 920;

the filtering holes 940 are uniformly formed in the top of the moving plate 910, the filtering holes 940 penetrate through the bottom of the moving plate 910, water pumped into the cavity of the circulating water sump body 610 is filtered through the filtering holes 940, and the volume of the cavity of the circulating water sump body 610 is adjusted by adjusting the height of the moving plate 910.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the embodiments disclosed herein may be used in any combination, provided that there is no structural conflict, and the combinations are not exhaustively described in this specification merely for the sake of brevity and conservation of resources. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (9)

1. The utility model provides a pond intelligence disinfection oxygenation circulating device is bred to freshwater fish manual work which characterized in that: the method comprises the following steps:

an oxygen increasing mechanism (100);

the driving mechanism (200), the driving mechanism (200) is installed outside the oxygenation mechanism (100), and the inner cavity of the driving mechanism (200) is communicated with the inner cavity of the oxygenation mechanism (100);

the stirring mechanism (300) is installed in the inner cavity of the oxygen increasing mechanism (100), and part of components on the stirring mechanism (300) penetrate through the bottom of the oxygen increasing mechanism (100) and are installed in the inner cavity of the driving mechanism (200);

a top cover (400), wherein the top cover (400) is installed on the top of the oxygenation mechanism (100);

the culture pond (500), the culture pond (500) is connected with the liquid outlet of the oxygenation mechanism (100);

the circulating water bin (600), the circulating water bin (600) is connected with a liquid outlet of the culture pond (500);

the guide top cover (700), the said guide top cover (700) is installed on the top of the said circulating sump (600);

the lifting driving mechanism (800) is installed at the top of the guide top cover (700), and part of components on the lifting driving mechanism (800) penetrate through the bottom of the guide top cover (700) and are inserted into the inner cavity of the circulating water bin (600);

the filtering mechanism (900), the filtering mechanism (900) is installed on the guide mechanism of the guide top cover (700), the filtering mechanism (900) is connected with the lifting driving mechanism (800), and the filtering mechanism (900) is arranged in the inner cavity of the circulating water bin (600).

2. The intelligent disinfection and oxygenation circulating device for the artificial freshwater fish culture pond of claim 1, which is characterized in that: the oxygenation mechanism (100) comprises:

a mixing tub (110);

the air inlet joint (120) is arranged at the top of the side wall of the mixing barrel (110), and the inner cavity of the air inlet joint (120) is communicated with the inner cavity of the mixing barrel (110);

the water inlet connector (130) is arranged at the top of one side, away from the air inlet connector (120), of the mixing barrel (110), and the inner cavity of the first water inlet connector (130) is communicated with the inner cavity of the mixing barrel (110);

the first water drainage joint (140) is arranged at the bottom of one side, away from the air inlet joint (120), of the mixing barrel (110), and the inner cavity of the first water drainage joint (140) is communicated with the inner cavity of the mixing barrel (110);

an oxygen content sensor (150), the oxygen content sensor (150) mounted on a sidewall of a lumen of the mixing tub (110).

3. The intelligent disinfection and oxygenation circulating device for the artificial freshwater fish culture pond, as claimed in claim 2, is characterized in that: the drive mechanism (200) comprises:

the driving installation seat (210), the driving installation seat (210) is installed at the central position of the bottom of the mixing barrel (110);

the second water inlet joint (220), the second water inlet joint (220) is arranged on the side wall of the driving installation seat (210), and the inner cavity of the second water inlet joint (220) is communicated with the inner cavity of the driving installation seat (210);

the first drainage pipe (230) is arranged on the side wall of the drive mounting seat (210), the inner cavity of the first drainage pipe (230) is communicated with the inner cavity of the drive mounting seat (210), and the first drainage pipe (230) is symmetrical to the second water inlet joint (220);

a water pump (240), wherein the water pump (240) is installed at one end of the first drainage pipeline (230) far away from the driving installation seat (210);

the second water drainage pipeline (250) is installed at one end, far away from the first water drainage pipeline (230), of the water pump (240), and one end, far away from the water pump (240), of the second water drainage pipeline (250) is connected with the first water inlet joint (130).

4. The intelligent disinfection and oxygenation circulating device for the artificial freshwater fish culture pond of claim 3, which is characterized in that: the stirring mechanism (300) includes:

the driving shaft (310) is mounted in the inner cavity of the mixing barrel (110) through a bearing, and the driving shaft (310) penetrates through the bottom of the mixing barrel (110) and is connected with the bottom of the inner cavity of the driving mounting seat (210) through a bearing;

the stirring blades (320) are uniformly arranged on the outer wall of the driving shaft (310) in an annular shape, and the stirring blades (320) are arranged in the inner cavity of the mixing barrel (110);

the driving rod (330), the driving rod (330) is the even setting of annular on the outer wall of drive shaft (310), the driving rod (330) is in the lower extreme of stirring vane (320), driving rod (330) are in the inner chamber of drive mount pad (210), driving rod (330) with second water supply connector (220) are corresponding.

5. The intelligent disinfection and oxygenation circulating device for the artificial freshwater fish culture pond, as claimed in claim 4, is characterized in that: the culture pond (500) comprises:

a culture pond body (510);

two connectors (520), two the symmetrical setting of connector (520) is in breed the bottom of two broadsides of pond body (510), the inner chamber of connector (520) with the inner chamber of breeding pond body (510) link up mutually, two in connector (520) with first drainage connector (140) are connected.

6. The intelligent disinfection and oxygenation circulating device for the artificial freshwater fish culture pond, as claimed in claim 5, is characterized in that: the circulating water sump (600) includes:

a circulating water sump body (610);

the third water inlet joint (620) is arranged at the top of the side wall of the circulating water sump body (610), and the inner cavity of the third water inlet joint (620) is communicated with the inner cavity of the circulating water sump body (610);

one end of the water inlet pipeline (630) is installed at one end, far away from the circulating water bin body (610), of the third water inlet joint (620), and one end, far away from the third water inlet joint (620), of the water inlet pipeline (630) is connected with the other connector (520) of the two connectors (520);

the second water drainage connector (640) is arranged on the circulating water sump body (610) and is far away from the bottom of one side of the third water inlet connector (620), the inner cavity of the second water drainage connector (640) is communicated with the inner cavity of the circulating water sump body (610), and the second water drainage connector (640) is connected with the second water inlet connector (220) through a circulating pump.

7. The intelligent disinfection and oxygenation circulating device for the artificial freshwater fish culture pond of claim 6, which is characterized in that: the guide cap (700) comprises:

a top cover body (710), wherein the top cover body (710) is installed on the top of the circulating water sump body (610);

the mounting hole (720) is formed in the center of the top cover body (710), and the mounting hole (720) penetrates through the bottom of the top cover body (710);

the two guide rods (730) are symmetrically arranged on the left side and the right side of the bottom of the top cover body (710), and the guide rods (730) are inserted into an inner cavity of the circulating water bin body (610).

8. The intelligent disinfection and oxygenation circulating device for the artificial freshwater fish culture pond of claim 7, which is characterized in that: the lift drive mechanism (800) comprises:

a motor (810), wherein the motor (810) is installed on the top of the top cover body (710), and the motor (810) corresponds to the installation hole (720);

the screw rod (820) is installed on an output shaft of the motor (810), and the screw rod (820) is arranged in an inner cavity of the circulating water sump body (610).

9. The intelligent disinfection and oxygenation circulating device for the artificial freshwater fish culture pond of claim 8, which is characterized in that: the filter mechanism (900) comprises:

the moving plate (910) is arranged in the inner cavity of the circulating water sump body (610), and the side wall of the moving plate (910) is in contact with the side wall of the inner cavity of the circulating water sump body (610);

the threaded hole (920), the threaded hole (920) is formed in the center of the top of the moving plate (910), and the threaded hole (920) penetrates through the bottom of the moving plate (910);

the two guide holes (930) are symmetrically formed in the left side and the right side of the top of the moving plate (910), and the guide holes (930) penetrate through the bottom of the moving plate (910);

the filtering holes (940) are uniformly formed in the top of the moving plate (910), and the filtering holes (940) penetrate through the bottom of the moving plate (910).

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