CN210137729U - Industrial circulating water hatching and seedling raising system for aquaculture - Google Patents

Abstract

The utility model discloses an industrial circulating water hatching and seedling growing system for aquaculture, which comprises an incubation pool, an induction pool, a sewage purification device, a sterilization device, an oxygenation device, a sewage treatment pool, a water supply device, an external water tower and a central control cabinet, and is characterized in that the incubation pool and the induction pool are mutually communicated, the water inlet ends of the incubation pool and the induction pool are respectively communicated with the water outlet end of the water supply device and the water outlet end of the oxygenation device, the oxygenation device is respectively communicated with the sterilization device and the water supply device, the sewage discharge ends of the incubation pool and the induction pool are respectively communicated with the water inlet end of the sewage purification device, and the water outlet end of the sewage purification device is communicated with the sterilization device; the sewage generated in the whole induced spawning and hatching process directly enters a sewage purification device for precipitation, biological treatment and acid-base regulation, then is sterilized and oxygenated, and finally enters an induced spawning pool and a hatching pool again for reutilization, so that the water resource is recycled and the water resource consumption is reduced.

Description

Industrial circulating water hatching and seedling raising system for aquaculture

Technical Field

The utility model relates to an aquaculture seedling technical field specifically is an industrial circulating water hatching system of growing seedlings that aquaculture used.

Background

Aquaculture is the production activity of breeding, cultivating and harvesting aquatic animals and plants under artificial control. Generally comprises the whole process of cultivating aquatic products from seedlings under artificial feeding management. In a broad sense, this may also include the proliferation of aquatic resources. Aquaculture has modes of rough culture, intensive culture, high-density intensive culture and the like.

The traditional seedling culture hatching process occupies a large area, and a large amount of water needs to be replaced in the hatching process to ensure that the fish eggs obtain sufficient oxygen and the fish eggs are not bonded, so that water resources are wasted; the traditional seedling raising and hatching process is influenced by external temperature and needs manual whole-process monitoring, so that the seedling raising and hatching rate is low and uncontrollable; in the traditional hatching and seedling raising process, data recorded manually is easy to distort, the reference value of historical data records is extremely low, and the modern production requirements are difficult to meet.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an industrial circulating water hatching seedling growing system that aquaculture used to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

an industrial circulating water hatching and seedling raising system for aquaculture comprises a hatching pond, an induced spawning pond, a sewage purification device, a sterilization device, an oxygenation device, a sewage treatment pond, a water supply device, an external water tower and a central control cabinet, wherein the hatching pond and the induced spawning pond are mutually communicated, the water inlet ends of the hatching pond and the induced spawning pond are respectively communicated with the water outlet end of the water supply device and the water outlet end of the oxygenation device, the oxygenation device is respectively communicated with the sterilization device and the water supply device, the sewage discharge ends of the hatching pond and the induced spawning pond are respectively communicated with the water inlet end of the sewage purification device, the water outlet end of the sewage purification device is communicated with the sterilization device, the sewage discharge end of the sewage purification device is communicated with the sewage treatment pond, the sewage treatment pond is communicated with a sludge dewatering process, the sterilization device is communicated with the sewage treatment pond, the sewage discharge end of the water supply device is communicated with the sewage treatment device, the external water tower is communicated with the sewage purification device, the water outlet end of the sewage purification device is communicated with the water inlet end of the water supply device, the central control cabinet is respectively connected with the sewage purification device, the sterilization device and the oxygenation device, the central control cabinet is connected with a mobile phone and/or a computer through the internet, water is directly added into the spawning inducing pool and the hatching pool through the water supply device, then the induced spawning pond is used for induced spawning of the fish, spawns after induced spawning are concentrated and enter the hatching pond for hatching, sewage generated in the whole induced spawning and hatching process directly enters the sewage purification device for precipitation, biological treatment and acid-base regulation, then, sterilization treatment is carried out under the action of a sterilization device, oxygen is supplemented under the action of an oxygenation device after sterilization, and finally the sterilized oxygen enters the spawning inducing pool and the hatching pool again for reutilization, so that the water resource is recycled, and the water resource consumption is reduced; the whole sewage treatment process is completed by respectively controlling the sewage purification device, the sterilization device and the oxygenation device through the central control cabinet, the whole treatment process is intelligent management, people only need to complete remote operation through a mobile phone or a computer, the seedling culture hatching rate can be effectively guaranteed, management data are stored by the computer or the mobile phone, the influence of factors is reduced, and the accuracy of the data is guaranteed.

As a further aspect of the present invention: the sewage purification device comprises a radial flow precipitator, a micro-filter, a rotary separation tank, a biological treatment tank, a PH regulation tank and a clean water tank, wherein the radial flow precipitator, the micro-filter, the rotary separation tank, the biological treatment tank, the PH regulation tank and the clean water tank are sequentially connected in a head-to-tail through manner, the water inlet end of the radial flow precipitator is respectively connected with the sewage discharge ends of an incubation tank and a catalytic tank in a through manner, the water outlet end of the clean water tank is respectively connected with a water supply device and a sterilization device in a through manner, the water outlet end of an external water tower is connected with the clean water tank in a through manner, the sewage discharge ends of the micro-filter and the biological treatment tank are connected with the inlet end of the sewage treatment tank in a through manner, and the radial flow precipitator, the micro-filter and the rotary separation tank are respectively used for carrying out physical precipitation, filtration and centrifugal precipitation on solid particles in sewage to completely remove solid impurities in the, Decarbonizing, namely adjusting the pH value of a water body by matching with a pH adjusting tank to ensure that sewage is purified completely and completely, enabling the purified water to flow into a clear water tank, and supplementing water by using an external water tower to prevent water loss in the sewage purification process; and the sewage in the sewage purification process is concentrated in the sewage treatment tank for concentrated treatment.

As a further aspect of the present invention: install dissolved oxygen, temperature sensor and PH detection sensor in the clear water pond, dissolved oxygen, temperature sensor and PH detection sensor are connected with the central control cabinet respectively, utilize dissolved oxygen, temperature sensor to detect temperature and oxygen content, utilize PH detection sensor to detect the pH valve of water, are convenient for know the water quality of water condition in real time to record data.

As a further aspect of the present invention: the water supply installation includes water tower and former water tower, be through connection between former water tower and the water tower, the blowdown end of former water tower and water tower is through connection sewage treatment pond respectively, former water tower and water tower are connected with oxygenation device respectively, the water tower is through connection hasten parturition pond and hatching pond respectively, utilizes former water tower and water tower can directly carry out the moisturizing to hasten parturition pond and hatching pond, utilizes oxygenation device can be directly to the water supplemental oxygen in former water tower and the water tower, improves the aquatic oxygen content.

As a further aspect of the present invention: the sterilizing device comprises a sterilizing machine and a constant temperature machine, the oxygenation device comprises an oxygenation cone and a pure oxygen machine, the oxygenation cone is connected with the pure oxygen machine, and a proportion adjusting device is arranged on the oxygenation cone and can directly adjust the oxygenation amount on the pressurization cone, so that the oxygenation condition of a water body can be conveniently controlled; the water outlet end of oxygenation awl link up respectively the incubation pool with hasten parturition the pond, the end through connection constant temperature machine of intaking of oxygenation awl, the oxygenation is connected with water tower and former water tower respectively, the end through connection sterilization machine of intaking of constant temperature machine, the end through connection constant temperature machine of intaking of sterilization machine goes out the water outlet end in clean water basin, central control cabinet is connected respectively to constant temperature machine and sterilization machine, the blowdown end through connection sewage treatment pond of sterilization machine installs ultraviolet lamp on the sterilization machine, utilizes the ultraviolet lamp to shine and disinfect to the water after purifying, improves quality of water once more, utilizes constant temperature machine moderator temperature, utilizes the oxygenation awl directly to carry out oxygenation to the water after purifying and handles, improves the water oxygen content, guarantees to hasten parturition and hatching effect.

As a further aspect of the present invention: the spawning inducing pool is provided with a main water return pipe, a main fish collecting pipe and a main water inlet pipe around the spawning inducing pool and the hatching pool, the spawning inducing pool and the hatching pool are respectively connected with the main water return pipe through a water return pipe, the spawning inducing pool and the hatching pool are respectively connected with the main water inlet pipe through a water inlet pipe, the hatching pool is connected with the main fish collecting pipe through a fish collecting pipe, a water level balance pipe is respectively installed in the spawning inducing pool and the hatching pool, a debonding screen is arranged in the hatching pool, a side end through connection egg collecting insertion pipe of the hatching pool, a fish egg collecting pool is arranged in the spawning inducing pool, an inner cavity of the spawning inducing pool is connected with the fish egg collecting pool through a communicating pipe, the fish egg collecting pool is connected with the fish egg collecting pipe through a communicating pipe in the fish egg collecting pool, the fish egg collecting pipe is connected with the.

As a further aspect of the present invention: the utility model discloses a water oxygen supply device, including hasten parturition pond and hatching pond, the top of hasten parturition pond and hatching pond installs main air supply pipe jointly, install respectively in hasten parturition pond and the hatching pond and advance the oxygen pipe, be through connection between advance the oxygen pipe and main air supply pipe, advance the oxygen pipe for a short time and select nanometer to advance the oxygen pipe, utilize main air supply pipe cooperation to advance the oxygen pipe and can be for the water supplemental oxygen in hasten parturition pond and the hatching pond, increase water oxygen content.

As a further aspect of the present invention: a inlet tube in the hatching pond is circular array distribution, and the play water end of a inlet tube is the setting of L shape structure, flows to a direction in the hatching pond from a water end that intakes to mix the rivers in the hatching pond, the adhesion problem of solution roe that can be fine.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the water supply device is used for directly adding water into the spawning induction pool and the hatching pool, then the spawning induction pool is used for spawning induction of fish, spawns after spawning induction enter the hatching pool to be hatched in a centralized manner, sewage generated in the whole spawning induction and hatching process directly enters the sewage purification device to be precipitated, biologically treated and regulated in acid and alkali, then sterilization treatment is carried out under the action of the sterilization device, oxygen is supplemented under the action of the oxygenation device after sterilization, and finally the sewage enters the spawning induction pool and the hatching pool again to be reused, so that the cyclic utilization of water resources is realized, and the water source consumption is reduced;

2. the whole sewage treatment process is completed by respectively controlling the sewage purification device, the sterilization device and the oxygenation device through the central control cabinet, the whole treatment process is intelligent management, people can complete remote operation only through a mobile phone or a computer, the seedling incubation rate can be effectively ensured, management data is stored by the computer or the mobile phone, the influence of factors is reduced, and the accuracy of the data is ensured; meanwhile, the labor cost can be reduced;

3. the utility model discloses utilize radial flow precipitator, microstrainer and rotatory separation tank to carry out physics sediment, filtration and centrifugal precipitation respectively to the solid particle in the sewage, remove the solid impurity in the sewage completely, then cooperate the biological treatment pond to carry out aeration, decarbonization and handle, cooperate the pH valve that the pH equalizing basin adjusted the water, guarantee that sewage is purified totally, thoroughly.

Drawings

FIG. 1 is a schematic structural diagram of an industrial circulating water hatching and seedling raising system for aquaculture;

FIG. 2 is a schematic structural diagram of a matching relationship between an induction tank and an incubation tank of an industrial circulating water incubation seedling system for aquaculture;

FIG. 3 is a schematic structural diagram of a top view of the mutual matching relationship between the spawning inducing pool and the hatching pool of the industrial circulating water hatching and seedling raising system for aquaculture;

FIG. 4 is a schematic structural diagram of an induced spawning pond of an industrial circulating water hatching and seedling raising system for aquaculture;

fig. 5 is a schematic structural diagram of an incubation pool of an industrial circulating water incubation seedling system for aquaculture.

In the figure: 1-an oxytocic pool, 2-an incubation pool, 3-a main water return pipe, 4-a main fish collecting pipe, 5-a main water inlet pipe, 6-a main air supply pipe, 7-a debonding screen, 8-an egg collecting pipe, 9-a water return pipe, 10-a communicating pipe, 11-an egg collecting pool, 12-a water inlet pipe, 13-an oxygenation pipe, 14-a water level balancing pipe, 15-an egg collecting cannula and 16-a fish collecting pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to fig. 1, an aquaculture industrial circulating water hatching and seedling raising system comprises a hatching pond, an induction spawning pond, a sewage purification device, a sterilization device, an oxygenation device, a sewage treatment pond, a water supply device, an external water tower and a central control cabinet, wherein the hatching pond and the induction spawning pond are communicated with each other, the water inlet ends of the hatching pond and the induction spawning pond are respectively communicated with the water outlet end of the water supply device and the water outlet end of the oxygenation device, the oxygenation device is respectively communicated with the sterilization device and the water supply device, the sewage discharge ends of the hatching pond and the induction spawning pond are respectively communicated with the water inlet end of the sewage purification device, the water outlet end of the sewage purification device is communicated with the sterilization device, the sewage discharge end of the sewage purification device is communicated with the sewage treatment pond, the sewage treatment pond is communicated with a sludge dewatering process, and the sterilization device is communicated with the sewage treatment pond, the sewage discharging end of the water supply device is in through connection with a sewage treatment device, the external water tower is in through connection with a sewage purification device, the water outlet end of the sewage purification device is in through connection with the water inlet end of the water supply device, the central control cabinet is respectively connected with the sewage purification device, the sterilization device and the oxygenation device, the central control cabinet is connected with a mobile phone and/or a computer through the internet, water is directly added into the spawning induction pool and the hatching pool through the water supply device, then the spawning induction pool is utilized to induce spawning of fish, spawns after the spawning induction are intensively fed into the hatching pool for hatching, sewage generated in the whole spawning induction and hatching process directly enters the sewage purification device for precipitation, biological treatment and acid-base regulation, then the sterilization treatment is carried out under the action of the sterilization device, oxygen is supplemented under the action of the oxygenation device after the sterilization, and finally the spawning induction pool and the hatching, thereby realizing the recycling of water resources and reducing the consumption of water resources; the whole sewage treatment process is completed by respectively controlling the sewage purification device, the sterilization device and the oxygenation device through the central control cabinet, the whole treatment process is intelligent management, people only need to complete remote operation through a mobile phone or a computer, the seedling culture hatching rate can be effectively guaranteed, management data are stored by the computer or the mobile phone, the influence of factors is reduced, and the accuracy of the data is guaranteed.

Example 2

The present embodiment is further illustrated on the basis of embodiment 1, the sewage purification apparatus includes a radial flow precipitator, a micro-filter, a rotary separation tank, a biological treatment tank, a PH adjustment tank and a clean water tank, the radial flow precipitator, the micro-filter, the rotary separation tank, the biological treatment tank, the PH adjustment tank and the clean water tank are sequentially connected end to end in a penetrating manner, a water inlet end of the radial flow precipitator is respectively connected to a sewage discharge end of the incubation tank and a sewage discharge end of the catalytic tank in a penetrating manner, a water outlet end of the clean water tank is respectively connected to a water supply device and a sterilization device in a penetrating manner, a water outlet end of the external water tower is connected to the clean water tank in a penetrating manner, a sewage discharge end of the micro-filter and the biological treatment tank is connected to an inlet end of the sewage treatment tank in a penetrating manner, the radial flow precipitator, the micro-filter and the rotary separation tank are utilized to respectively perform physical precipitation, filtration and centrifugal precipitation on solid particles in, then, the biological treatment tank is matched for aeration and decarburization treatment, the PH adjusting tank is matched for adjusting the pH value of the water body, the sewage is ensured to be purified completely, the purified water flows into the clear water tank, and meanwhile, an external water tower is used for supplementing water, so that the water loss caused in the sewage purification process is prevented; and the sewage in the sewage purification process is concentrated in the sewage treatment tank for concentrated treatment.

Install dissolved oxygen, temperature sensor and PH detection sensor in the clear water pond, dissolved oxygen, temperature sensor and PH detection sensor are connected with the central control cabinet respectively, utilize dissolved oxygen, temperature sensor to detect temperature and oxygen content, utilize PH detection sensor to detect the pH valve of water, are convenient for know the water quality of water condition in real time to record data.

The water supply installation includes water tower and former water tower, be through connection between former water tower and the water tower, the blowdown end of former water tower and water tower is through connection sewage treatment pond respectively, former water tower and water tower are connected with oxygenation device respectively, the water tower is through connection hasten parturition pond and hatching pond respectively, utilizes former water tower and water tower can directly carry out the moisturizing to hasten parturition pond and hatching pond, utilizes oxygenation device can be directly to the water supplemental oxygen in former water tower and the water tower, improves the aquatic oxygen content.

The sterilizing device comprises a sterilizing machine and a constant temperature machine, the oxygenation device comprises an oxygenation cone and a pure oxygen machine, the oxygenation cone is connected with the pure oxygen machine, and a proportion adjusting device is arranged on the oxygenation cone and can directly adjust the oxygenation amount on the pressurization cone, so that the oxygenation condition of a water body can be conveniently controlled; the water outlet end of oxygenation awl link up respectively the incubation pool with hasten parturition the pond, the end through connection constant temperature machine of intaking of oxygenation awl, the oxygenation is connected with water tower and former water tower respectively, the end through connection sterilization machine of intaking of constant temperature machine, the end through connection constant temperature machine of intaking of sterilization machine goes out the water outlet end in clean water basin, central control cabinet is connected respectively to constant temperature machine and sterilization machine, the blowdown end through connection sewage treatment pond of sterilization machine installs ultraviolet lamp on the sterilization machine, utilizes the ultraviolet lamp to shine and disinfect to the water after purifying, improves quality of water once more, utilizes constant temperature machine moderator temperature, utilizes the oxygenation awl directly to carry out oxygenation to the water after purifying and handles, improves the water oxygen content, guarantees to hasten parturition and hatching effect.

Example 3

Referring to fig. 2-5, a main water return pipe 3, a main fish receiving pipe 4 and a main water inlet pipe 5 are arranged around the spawning inducing pool 1 and the hatching pool 2, the spawning inducing pool 1 and the hatching pool 2 are respectively connected with the main water return pipe 3 through a branch water return pipe 9, the spawning inducing pool 1 and the hatching pool 2 are respectively connected with the main water inlet pipe 5 through a branch water inlet pipe 12, the hatching pool 2 is connected with the main fish receiving pipe 4 through a branch fish receiving pipe 16, water level balance pipes 14 are respectively arranged in the spawning inducing pool 1 and the hatching pool 2, a debonding screen 7 is arranged in the hatching pool 2, one side end of the hatching pool 2 is connected with an egg collecting pipe 15 through a through pipe, a fish egg collecting pool 11 is arranged in the spawn inducing pool 1, an inner cavity of the spawning inducing pool 1 is connected with the fish egg collecting pool 11 through a communicating pipe 10, a fish egg collecting pipe 8 is connected in the fish egg collecting pool 11 through a connecting pipe, and the egg collecting pipe, and the roe collecting pond 11 is communicated with the main water return pipe 3 through a branch water return pipe 9.

Main air supply pipe 6 is installed jointly to the top of hasten parturition pond 1 and hatching pond 2, install branch oxygenation pipe 13 in hasten parturition pond 1 and the hatching pond 2 respectively, be through connection between branch oxygenation pipe 13 and the main air supply pipe 6, branch oxygenation pipe 13 chooses nanometer oxygenation pipe for use, utilizes main air supply pipe 6 cooperation branch oxygenation pipe 13 can increase the water oxygen content for the water supply oxygen in hasten parturition pond 1 and the hatching pond 2.

A water inlet pipe 12 in the hatching pond 2 is circular array distribution, and the play water end of a water inlet pipe 12 is the setting of L shape structure, and the water that flows out in the end 12 of intaking from a branch flows to a direction in the hatching pond 2 to stir the rivers in the hatching pond 2, the adhesion problem of solution roe that can be fine.

The working principle of the embodiment 1-3 is that water is directly added into an induced spawning pond and an incubation pond through a water tower and a raw water tower, then the induced spawning pond is used for induced spawning of fish, spawns after induced spawning intensively enter the incubation pond for incubation, sewage generated in the whole induced spawning and incubation process directly enters a sewage purification device, the sewage purification device respectively carries out physical precipitation, filtration and centrifugal precipitation on solid particle sewage in the sewage by using a radial flow precipitator, a micro-filter and a rotary separation pond, solid impurities in the sewage are completely removed, then aeration and decarburization treatment are carried out by matching with a biological treatment pond, the pH value of a water body is adjusted by matching with a pH adjusting pond, the sewage is ensured to be purified completely and cleanly, the purified water flows into a clean water pond, and meanwhile, an external water tower is used for supplementing water, and water loss caused in the sewage purification process is prevented; sewage in the sewage purification process is concentrated in the sewage treatment tank for concentrated treatment, water in the clear water tank flows into the sterilization machine, is sterilized under the irradiation of an ultraviolet lamp, is subjected to temperature regulation in the constant temperature machine after being sterilized, then is supplemented with oxygen under the action of an oxygen cone, and finally enters the spawning induction tank and the hatching tank again for reutilization, so that the water resource is recycled, and the water resource consumption is reduced; and whole sewage treatment process is all through central control cabinet dissolved oxygen of control respectively, temperature sensor and PH detect the water oxygen content in the sensor detection clear water pond, temperature and acid-base nature, then control the constant temperature machine and adjust the temperature, control pure oxygen machine and pass through oxygenation awl adjustment water oxygen content, control sterilization machine carries out disinfection treatment to the water, whole processing procedure is intelligent management, the remote operation can be accomplished through cell-phone or computer to the people only, can effectually guarantee the hatching rate of growing seedlings, and management data utilizes computer or cell-phone to deposit, reduce and think the factor influence, guarantee the accuracy of data.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (9)

1. An industrial circulating water hatching and seedling raising system for aquaculture comprises a hatching pond, an oxytocic pond, a sewage purification device, a sterilization device, an oxygenation device, a sewage treatment pond, a water supply device, an external water tower and a central control cabinet, and is characterized in that the hatching pond and the oxytocic pond are communicated with each other, the water inlet ends of the hatching pond and the oxytocic pond are respectively communicated with the water outlet end of the water supply device and the water outlet end of the oxygenation device, the oxygenation device is respectively communicated with the sterilization device and the water supply device, the sewage discharge ends of the hatching pond and the oxytocic pond are respectively communicated with the water inlet end of the sewage purification device, the water outlet end of the sewage purification device is communicated with the sterilization device, the sewage discharge end of the sewage purification device is communicated with the sewage treatment pond, the sewage treatment pond is communicated with a sludge dewatering process, the sterilization device is communicated with the sewage treatment pond, and the sewage discharge end of, the external water tower is communicated with the sewage purification device, the water outlet end of the sewage purification device is communicated with the water inlet end of the water supply device, the central control cabinet is respectively connected with the sewage purification device, the sterilization device and the oxygenation device, and the central control cabinet is connected with a mobile phone and/or a computer through the internet.

2. The industrial circulating water hatching and seedling raising system for aquaculture as claimed in claim 1, wherein the sewage purification device comprises a radial flow precipitator, a micro-filter, a rotary separation tank, a biological treatment tank, a PH regulation tank and a clean water tank, the radial flow precipitator, the micro-filter, the rotary separation tank, the biological treatment tank, the PH regulation tank and the clean water tank are sequentially connected end to end in a through manner, the water inlet end of the radial flow precipitator is respectively connected with the sewage discharge ends of the hatching tank and the catalytic tank in a through manner, the water outlet end of the clean water tank is respectively connected with the water supply device and the sterilization device in a through manner, the water outlet end of the external water tower is connected with the clean water tank in a through manner, and the sewage discharge ends of the micro-filter and the biological treatment tank are connected with the inlet end of the sewage treatment tank.

3. The industrial circulating water hatching and seedling raising system for aquaculture as claimed in claim 2, wherein the clean water tank is provided with a dissolved oxygen sensor, a temperature sensor and a PH detection sensor, and the dissolved oxygen sensor, the temperature sensor and the PH detection sensor are respectively connected with the central control cabinet.

4. The system for incubating and growing seedlings of aquaculture plants with circulating water as claimed in claim 3, wherein said water supply device comprises a water tower and a raw water tower, the raw water tower and the water tower are connected in series, the sewage discharge ends of the raw water tower and the water tower are respectively connected in series with a sewage treatment tank, the raw water tower and the water tower are respectively connected with an oxygen increasing device, and the water tower is respectively connected in series with an oxytocic tank and an incubation tank.

5. The system for hatching and raising seedlings of industrial circulating water for aquaculture as claimed in claim 4, wherein the sterilizing device comprises a sterilizing machine and a constant temperature machine, the oxygen increasing device comprises an oxygen increasing cone and a pure oxygen machine, the oxygen increasing cone is connected with the pure oxygen machine, and a proportion adjusting device is mounted on the oxygen increasing cone and can directly adjust the oxygen increasing amount on the pressurizing cone so as to control the oxygen increasing condition of the water body; the water outlet end of the oxygenation awl is respectively connected with the incubation pool and the spawning induction pool in a penetrating way, the water inlet end of the oxygenation awl is connected with the constant temperature machine, the oxygenation machine is respectively connected with the water tower and the raw water tower, the water inlet end of the constant temperature machine is connected with the sterilization machine in a penetrating way, the water outlet end of the water inlet end of the sterilization machine is connected with the clean water pool in a penetrating way, the constant temperature machine and the sterilization machine are respectively connected with the central control cabinet, the sewage discharge end of the sterilization machine is connected with the sewage treatment pool in a.

6. The industrial circulating water hatching and breeding system for aquaculture according to any one of claims 1 to 5, wherein a main water return pipe (3), a main fish collecting pipe (4) and a main water inlet pipe (5) are arranged around the spawning pond (1) and the hatching pond (2), the spawning pond (1) and the hatching pond (2) are respectively connected with the main water return pipe (3) through a branch water return pipe (9), the spawning pond (1) and the hatching pond (2) are respectively connected with the main water inlet pipe (5) through a branch water inlet pipe (12), the hatching pond (2) is connected with the main fish collecting pipe (4) through a branch fish collecting pipe (16), water level balance pipes (14) are respectively arranged in the spawning pond (1) and the hatching pond (2), a debonding screen (7) is arranged in the hatching pond (2), one side end of the hatching pond (2) is connected with an egg collecting pipe (15) through a branch, a fish egg collecting pond (11) is arranged in the spawning pond (1), the inner cavity of the spawning inducing pool (1) is communicated with a roe collecting pool (11) through a communicating pipe (10), a roe collecting pipe (8) is communicated and connected in the roe collecting pool (11), the roe collecting pipe (8) is communicated and connected with a roe collecting insertion pipe (15), and the roe collecting pool (11) is communicated and connected with a main water return pipe (3) through a water return pipe (9).

7. The industrial circulating water hatching and seedling raising system for aquaculture as claimed in claim 6, wherein a main air supply pipe (6) is commonly installed above the spawning pool (1) and the hatching pool (2), branch oxygen increasing pipes (13) are respectively installed in the spawning pool (1) and the hatching pool (2), and the branch oxygen increasing pipes (13) are in through connection with the main air supply pipe (6).

8. The industrial circulating water hatching and seedling raising system for aquaculture as claimed in claim 7, wherein the branch oxygenation tubes (13) are selected from nanometer oxygenation tubes.

9. The industrial circulating water hatching and seedling raising system for aquaculture as claimed in claim 6, wherein the branch water inlet pipes (12) in the hatching pond (2) are distributed in a circular array, and the water outlet ends of the branch water inlet pipes (12) are arranged in an L-shaped structure.

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