CN116250505A - Artificial breeding equipment and method for mandarin fish fries with systematic feed - Google Patents

Abstract

The invention discloses artificial breeding equipment and method for mandarin fish fries with systematic feed, relates to the technical field of fry breeding, and aims to solve the problem that food can not be put in according to the positions and sizes of the fries when the conventional mandarin fish fries are artificially bred. The inside in pond is installed inside mandarin fish rearing pond, the inside in pond is provided with filtered water, the four corners in mandarin fish rearing pond inner wall all is provided with the protection translucent cover, the inside of protection translucent cover all is provided with the fry scanner, the inside of ceiling mechanism is provided with the second inner chamber body, the inside top of second inner chamber body is provided with the parcel board, the below of parcel board is provided with sealed shielding plate, one side of sealed shielding plate is provided with processing controller, one side of processing controller is provided with the transformer.

Description

Artificial breeding equipment and method for mandarin fish fries with systematic feed

Technical Field

The invention relates to the technical field of fish fry rearing, in particular to artificial breeding equipment and method for mandarin fish fries with systematic feed.

Background

Mandarin fish, also called Osmanthus fragrans, quaternary flower, etc., is a rare fish in freshwater fish. The mandarin fish is widely distributed in rivers, lakes and reservoirs, and is favored to perch in clean, transparent and micro-flowing water environments. The mandarin fish breeding season is generally from 5 to 7 months. Female fish can reach sexual maturity for two years, and male fish can reach sexual maturity for one year. Mature parent fish can naturally reproduce in rivers, lakes and reservoirs, spawns are generally produced in rainy days or in micro-flowing water environments, and fertilized eggs are hatched with drifting along with water. The application publication number is CN107853219A, chinese patent name is a novel mandarin fish ecological breeding technology based on high yield, comprising: the method comprises the steps of selecting a main mandarin fish culturing pond, sterilizing the main mandarin fish culturing pond, introducing fresh water, arranging a grass belt and a grass area in the main mandarin fish culturing pond, selecting proper bait fish for mandarin fish fries, throwing mandarin fish fries, soaking bait fish pellet feed in astragalus and bighead atractylodes rhizome leaching liquid, culturing, managing water quality, preventing and controlling fish diseases, and putting the mandarin fish into the market, so that the defects of low efficiency and low culturing yield of the traditional mandarin fish culturing method are overcome, a novel mandarin fish ecological culturing technology based on high yield is provided, the problem that the mandarin fish enriches medicines through biological chains is solved by utilizing disease and insect preventing means and Chinese herbal medicines, and the cultured mandarin fish can be detected through strict medicine residues; the method improves a plurality of water-oxygen machines, solves the problem that the yield is low due to low survival rate of mandarin fish caused by oxygen deficiency, and greatly improves the yield and economic benefit of the mandarin fish pond.

However, when the existing mandarin fish fries are artificially bred, the problem of food throwing according to the positions and sizes of the fries cannot be solved; therefore, we provide an artificial breeding device and method for mandarin fish fries with systematic feed.

Disclosure of Invention

The invention aims to provide systematic mandarin fish fries artificial breeding equipment and a method thereof, which aim to solve the problem that the conventional mandarin fish fries cannot be subjected to food throwing according to the positions and sizes of the fries when artificial breeding is carried out in the background art.

The invention provides the following technical scheme for realizing the purpose: the utility model provides a mandarin fish fries artificial breeding equipment with systematic fodder, includes mandarin fish rearing pond, installation back plate, ceiling mechanism and operating panel, the installation back plate is installed in the rear of mandarin fish rearing pond, ceiling mechanism installs the one side in installation back plate top, operating panel installs in the place ahead of mandarin fish rearing pond, operating panel's below is provided with the erection column;

further comprises:

the inside of pond is bred to the mandarin fish, its inside of installing in the pond is bred to the mandarin fish, the inside of pond is provided with the filtration water, the four corners of mandarin fish breeding the pond inner wall all is provided with the protection translucent cover, the inside of protection translucent cover all is provided with the fry scanner, the inside of ceiling mechanism is provided with the second inner cavity, the inside top of second inner cavity is provided with the parcel board, the below of parcel board is provided with sealed shielding plate, one side of sealed shielding plate is provided with the processing controller, one side of processing controller is provided with the transformer, fry scanner and processing controller pass through wireless signal transmission, the opposite side of sealed shielding plate is provided with the material conveyer pipe, the inside of material conveyer pipe is provided with the output chamber, the ceiling mechanism lower extreme face is provided with the rotation end, the inside of rotation end is provided with the second force (forcing) pump, the lower extreme face of second force (forcing) pump both sides are provided with the rotation connection through rotating electrical machines and ceiling mechanism, the both sides of rotation end all are provided with end equipment, and two camera equipment are provided with;

the conveying pump is arranged in front of the lower end face of the rear mounting plate, an output water port is formed in the front end face of the rear mounting plate, a plurality of protruding battens are arranged below the output water port and fixedly connected with the rear mounting plate, and the conveying pump is connected to one end of the output water port through a first conveying pipeline;

the display screen, it is installed ceiling mechanism, ceiling mechanism's preceding terminal surface, ceiling mechanism's up end is provided with the fixed strip, the both sides of fixed strip all are provided with upset shielding plate, and upset shielding plate is provided with two, two upset shielding plate all rotates with the fixed strip damping to be connected, the inside of parcel board is provided with the third inner chamber body, the inside of third inner chamber body is provided with first force (forcing) pump, the below of first force (forcing) pump is provided with the second raceway, the second raceway is connected with the delivery pump through the second pipeline, and the second pipeline extends to the parcel board outside, the top of first force (forcing) pump is provided with first raceway, and first raceway is provided with two, two the upper port of first raceway all is in the inside of fixed strip both sides.

Preferably, the two camera head devices are electrically connected with the processing controller.

Preferably, lighting devices are arranged on two sides of the lower end face of the ceiling mechanism, and two lighting devices are arranged.

Preferably, one side of mandarin fish rearing pond up end is provided with the filtration temperature control equipment, the side of filtration temperature control equipment is provided with the access panel, the access panel passes through hexagonal bolt and filtration temperature control equipment threaded connection, and hexagonal bolt is provided with four, one side of filtration temperature control equipment is provided with the output and goes into the pipe, the one end of going into the pipe is installed inside filtration temperature control equipment in the output, the other end of going into the pipe in the output goes deep into filtration aquatic, the front end of filtration temperature control equipment is provided with the louvre groove, and the louvre groove is provided with a plurality of.

Preferably, preformed hole grooves are formed in the lower portion of one side of the inner wall of the mandarin fish feeding pool, two preformed hole grooves are formed, and filter screens are arranged in the two preformed hole grooves.

Preferably, the rear of installation back plate is provided with rabbling mechanism, rabbling mechanism passes through the material output tube and is connected with the installation back plate, the inside top of installation back plate is provided with the transport cavity, carry cavity one end and material output tube connection, carry the cavity other end to be connected with the output cavity.

Preferably, the upper part of the stirring mechanism is provided with a servo motor, the lower part of the stirring mechanism is provided with a motor, the upper part of the outer wall of the stirring mechanism is provided with a material conveying pipe, the material conveying pipes are provided with two material conveying pipes, and the outer wall of the stirring mechanism is provided with an observation window.

Preferably, the inside of rabbling mechanism is provided with first inner chamber, the inside of first inner chamber is provided with the center and rotates the member, center rotates member upper end and servo motor below output shaft, the both sides of center rotates the member all are provided with the stirring leaf, and the stirring leaf is provided with two sets of, two sets of stirring leaf all with center rotates member fixed connection.

Preferably, a threaded rotating rod is arranged in the material output pipe, and one end of the threaded rotating rod is installed on the motor.

The application method of the artificial mandarin fish fry breeding equipment with the systematic feed comprises the following steps:

s1: the method comprises the steps that mandarin fish fries are placed in an inner pond in a mandarin fish raising pond, after the mandarin fish fries are placed in the inner pond, filtering and temperature control are carried out on water quality in the mandarin fish fries through an operation panel, then a conveying pump is started through the operation panel, water is conveyed to a water delivery outlet through a first conveying pipeline, then a water source is discharged through the water delivery outlet, the water passes through a raised slat in the falling process, so that oxygenation or oxygenation operation can be carried out on the internal filtering water, during filtering, the water is conveyed to the filtering temperature control equipment through a reserved hole groove, and then is conveyed back to the inner pond through an output inner inlet pipe on the filtering temperature control equipment, and meanwhile, during mandarin fish breeding, the temperature of the filtering water can be controlled through the filtering temperature control equipment, so that the mandarin fish fries can have a good breeding environment;

s2: when mandarin fish fries are fed, the size of the fries can be obtained through a fries scanner arranged on the mandarin fish raising pond, then the processing controller obtains the amount of required materials according to the size of the fries, the position of the fries is shot by the camera head equipment, when feeding, the fed feed can be uniformly scattered into the mandarin fish raising pond by rotating the rotating head by plus or minus degrees, meanwhile, the problem that the fries are not fed due to concentration in one area can be avoided, and meanwhile, the internal water quality can be observed through shooting;

s3: when the device is required to be cleaned regularly, the conveying pump is arranged to convey the pumped water to the second water conveying pipe through the second conveying pipe, then the pumped water is conveyed to the first pressurizing pump through the second water conveying pipe, and finally the pumped water is discharged through the first water conveying pipe, so that the ceiling mechanism can be cleaned regularly, and dust accumulation is avoided;

s4: according to the requirements, feeds with different nutrition are conveyed into the stirring mechanism through different conveying material pipes, after conveying, the servo motor is started, the rotating center rotating rod drives the stirring blades to rotate, so that materials are uniformly stirred, the motor is started again, the threaded rotating rod in the material output pipe is driven to rotate, the well-stirred materials can be conveyed to the conveying cavity through the material output pipe by the threaded rotating rod, and then conveyed to the second booster pump through the material conveying pipe, so that the materials are discharged.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arranged ceiling mechanism, the elements in the ceiling mechanism and the stirring mechanism, when mandarin fish fries are fed, the size of the fries can be obtained through the fries scanner arranged on the mandarin fish feeding pool, then the processing controller obtains the amount of required materials according to the size of the fries, the position of the fries is shot by the camera end equipment, and when the fries are fed, the fed feed can be uniformly scattered into the mandarin fish feeding pool by rotating the rotating end by plus or minus 120 degrees, meanwhile, the problem that the fries are concentrated in one area and do not eat the feed can be avoided, the problem that the conventional mandarin fish fries cannot be fed according to the position and size of the fries when artificial breeding is effectively solved, and meanwhile, the internal water quality can be observed through shooting.

2. Through delivery pump, delivery gate, protruding lath and the first pipeline that sets up, open the delivery pump through operating panel, carry the delivery gate through first pipeline with water, by delivery gate discharge water source again, the in-process of whereabouts is through protruding lath to can oxygenate or beat the operation on the oxygen to inside filtered water, both increased the aesthetic property of environment, can also effectually beat the operation of oxygen for inside.

3. Through the second conveying pipeline that sets up and the inside first force (forcing) pump of parcel board, first raceway and fixed strip, when the device is washd to the fixed period needs, the conveying pump that sets up will draw in water and carry the second raceway through the second conveying pipeline, carry in first force (forcing) pump by the second raceway again, finally by first raceway discharge to can carry out periodic clearance to ceiling mechanism, avoid the accumulation of dust.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

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

FIG. 3 is a schematic view showing the internal structure of the mounting rear plate of the present invention;

FIG. 4 is a schematic view of the bottom end construction of the ceiling mechanism of the present invention;

FIG. 5 is a schematic diagram of the inner structure of the mandarin fish feeding pool;

FIG. 6 is a schematic view of the internal structure of the stirring mechanism of the present invention;

in the figure: 100. a mandarin fish feeding pool; 101. an inner pool; 102. filtering water; 103. a protective transparent cover; 104. a transfer pump; 105. a fry scanner; 106. reserving a hole groove; 107. a filter screen; 200. installing a rear plate; 201. an output nozzle; 202. a raised slat; 203. a first delivery conduit; 204. a second delivery conduit; 300. a stirring mechanism; 301. a servo motor; 302. a material conveying pipe; 303. an observation window; 304. a motor; 305. a material output pipe; 30501. a conveying cavity; 306. a first inner cavity; 307. a central rotating rod piece; 308. stirring the leaves; 309. a threaded rotating rod; 400. a ceiling mechanism; 401. a display screen; 402. a fixing strip; 403. turning over the shielding plate; 404. a second inner cavity; 40401. a process controller; 40402. a transformer; 405. a wrapping plate; 40501. a third inner cavity; 40502. a first pressurizing pump; 40503. a first water pipe; 40504. a second water pipe; 406. sealing the shielding plate; 407. a lighting device; 408. rotating the end head; 40801. a second pressurizing pump; 40802. an output end; 409. a rotating electric machine; 410. a material conveying pipe; 411. an output chamber; 412. a camera head device; 500. an operation panel; 501. a mounting column; 600. a filtering temperature control device; 601. an output inner inlet pipe; 602. an access panel; 603. a hexagonal bolt; 604. and a heat dissipation hole groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Example 1

Referring to fig. 1-6, an embodiment of the present invention is provided: the utility model provides a mandarin fish fry artificial breeding equipment with systematic fodder, including interior pond 101, it installs in the inside of mandarin fish rearing pond 100, the inside of interior pond 101 is provided with filtration water 102, the four corners of mandarin fish rearing pond 100 inner wall all is provided with protection translucent cover 103, the inside of protection translucent cover 103 all is provided with fry scanner 105, the inside of ceiling mechanism 400 is provided with second inner cavity 404, the inside top of second inner cavity 404 is provided with parcel board 405, the below of parcel board 405 is provided with sealed shielding plate 406, one side of sealed shielding plate 406 is provided with processing controller 40401, one side of processing controller 40401 is provided with transformer 40402, fry scanner 105 and processing controller 40401 pass through wireless signal transmission, the opposite side of sealed shielding plate 406 is provided with material conveyer pipe 410, the inside of material conveyer pipe 410 is provided with output cavity 411, the terminal face is provided with rotation end 408 under the ceiling mechanism 400, the inside of rotation 408 is provided with second force up end 40801, the terminal face of second force up pump 40801 is provided with output end 40802, the both sides of second force up motor 40801 are provided with camera equipment 412 through rotation end 412 with rotation end 412, both sides are connected with ceiling mechanism 412.

The delivery pump 104 is installed in front of the lower end face of the installation rear plate 200, the front end face of the installation rear plate 200 is provided with an outlet 201, a plurality of protruding strips 202 are arranged below the outlet 201, the protruding strips 202 are fixedly connected with the installation rear plate 200, the protruding strips 202 are one half of the length of the next protruding strip 202 than the length of the previous protruding strip 202, the purpose of the next protruding strip 202 is to enable falling water to pass through the protruding strip 202, and accordingly filtered water 102 can be enabled to fully contact oxygen in air, energy consumption of an oxygenating machine is reduced, and the delivery pump 104 is connected to one end of the outlet 201 through a first delivery pipeline 203.

The display screen 401, it installs the preceding terminal surface at ceiling mechanism 400, the up end of ceiling mechanism 400 is provided with fixed strip 402, the both sides of fixed strip 402 all are provided with upset shielding plate 403, and upset shielding plate 403 is provided with two, two upset shielding plates 403 can effectually carry out the closed operation when ceiling mechanism 400 does not need the clearance, prevent that the dust from getting into, two upset shielding plates 403 all are connected with fixed strip 402 damping rotation, the inside of parcel board 405 is provided with third inner cavity 40501, the inside of third inner cavity 40501 is provided with first force (forcing) pump 40502, the setting of first force (forcing) pump 40502, the water pressure that can effectual assurance output is stable, the below of first force (forcing) pump 40502 is provided with second raceway 40504, second raceway 40504 is connected with delivery pump 104 through second delivery pipe 204, and second delivery pipe 204 extends to the parcel board 405 outside, the top of first force (forcing) pump 40502 is provided with first raceway 40503, and first raceway 40503 is provided with two, the inside of two first raceway ports 503 on both sides of fixed strip 402.

The size of the fish fry can be obtained by the fish fry scanner 105 arranged on the mandarin fish raising pond 100, the processing controller 40401 obtains the amount of required materials according to the size of the fish fry, the position of the fish fry is shot by the camera end equipment 412, and when the fish fry is fed, the fed feed can be uniformly scattered into the mandarin fish raising pond 100 by rotating the rotating end 408 by plus or minus 120 degrees, meanwhile, the problem that the fish fry is concentrated in one area, and the fish fry does not eat the feed can be avoided, and meanwhile, the internal water quality can be observed through shooting.

Example 2

Referring to fig. 2, 3 and 4, two camera head apparatuses 412 are electrically connected to a process controller 40401, two illumination apparatuses 407 are disposed on both sides of the lower end surface of the ceiling mechanism 400, and two illumination apparatuses 407 are disposed.

The lighting device 407 is arranged to effectively supplement the light below.

Referring to fig. 1, a filtering temperature control device 600 is disposed on one side of an upper end surface of the mandarin fish feeding pond 100, an access plate 602 is disposed on a side surface of the filtering temperature control device 600, the access plate 602 is in threaded connection with the filtering temperature control device 600 through hexagonal bolts 603, the hexagonal bolts 603 are four, an output inner inlet pipe 601 is disposed on one side of the filtering temperature control device 600, one end of the output inner inlet pipe 601 is mounted inside the filtering temperature control device 600, the other end of the output inner inlet pipe 601 extends into the filtering water 102, a heat dissipation hole groove 604 is disposed at a front end of the filtering temperature control device 600, and a plurality of heat dissipation hole grooves 604 are disposed.

The setting of hex bolts 603 can let the staff when dismantling access panel 602, and the operation is very convenient, filters temperature control equipment 600's setting simultaneously, can effectively improve the temperature of mandarin fish rearing pond 100 inside quality of water, can adjust the temperature as required.

Referring to fig. 1-6, a preformed hole groove 106 is arranged below one side of the inner wall of the mandarin fish feeding pool 100, two preformed hole grooves 106 are arranged, filter screens 107 are arranged inside the two preformed hole grooves 106, a stirring mechanism 300 is arranged behind the installation rear plate 200, the stirring mechanism 300 is connected with the installation rear plate 200 through a material output pipe 305, a conveying cavity 30501 is arranged above the inside of the installation rear plate 200, one end of the conveying cavity 30501 is connected with the material output pipe 305, the other end of the conveying cavity 30501 is connected with an output cavity 411, a servo motor 301 is arranged above the stirring mechanism 300, a motor 304 is arranged below the stirring mechanism 300, a material conveying pipe 302 is arranged above the outer wall of the stirring mechanism 300, two material conveying pipes 302 are arranged, and an observation window 303 is arranged on the outer wall of the stirring mechanism 300.

The motor 304 arranged below the stirring mechanism 300 can effectively provide the support of conveying power for the materials.

Referring to fig. 6, a first inner cavity 306 is provided in the stirring mechanism 300, a central rotating rod 307 is provided in the first inner cavity 306, the upper end of the central rotating rod 307 is mounted in the servo motor 301, stirring blades 308 are provided on both sides of the central rotating rod 307, and the stirring blades 308 are provided with two groups, and the two groups of stirring blades 308 are fixedly connected with the central rotating rod 307.

Referring to fig. 6, a threaded rotation rod 309 is provided in the material outlet pipe 305, and one end of the threaded rotation rod 309 is mounted to the motor 304.

The motor 304 is started to drive the threaded rotating rod 309 in the material output pipe 305 to rotate, and the rotating threaded rotating rod 309 can convey the stirred material in the stirring mechanism 300 to the conveying cavity 30501 through the material output pipe 305 and finally to the inside of the output cavity 411.

Example 3

Referring to fig. 1-6, a method for using artificial mandarin fish fry breeding equipment with systematic feed comprises the following steps:

s1: after mandarin fish fries are placed in an inner pond 101 in a mandarin fish raising pond 100, a filtering temperature control device 600 is started through an operation panel 500, the water quality in the mandarin fish fries is filtered and controlled in temperature through the filtering temperature control device 600, then a conveying pump 104 is started through the operation panel 500, the water is conveyed to an output water port 201 through a first conveying pipeline 203, a water source is discharged through the output water port 201, the water passes through a raised slat 202 in the falling process, so that the internal filtering water 102 can be oxygenated or oxygenated, during filtering, the water is conveyed to the filtering temperature control device 600 through a reserved hole groove 106, and then is conveyed back to the inner pond 101 through an output inner inlet pipe 601 on the filtering temperature control device 600, and meanwhile, during mandarin fish breeding, the filtering water 102 can be controlled in temperature through the filtering temperature control device 600, so that the mandarin fish fries can have a good breeding environment;

s2: when mandarin fish fries are fed, the size of the fries can be obtained through the fries scanner 105 arranged on the mandarin fish raising pond 100, then the processing controller 40401 can obtain the amount of required materials according to the size of the fries, the position of the fries is shot by the shooting end equipment 412, and when the mandarin fish fries are fed, the fed feed can be uniformly scattered into the mandarin fish raising pond 100 through rotating the rotating end 408 by plus or minus 120 degrees, meanwhile, the problem that the fries are not eaten due to the fact that the fries are concentrated in one area can be avoided, and meanwhile, the internal water quality can be observed through shooting;

s3: when the device is required to be cleaned regularly, the conveying pump 104 conveys the pumped water to the second water conveying pipe 40504 through the second conveying pipe 204, then the pumped water is conveyed to the first pressurizing pump 40502 through the second water conveying pipe 40504, and finally the pumped water is discharged through the first water conveying pipe 40503, so that the ceiling mechanism 400 can be cleaned regularly, and dust accumulation is avoided;

s4: according to the requirements, feeds with different nutrients are conveyed into the stirring mechanism 300 through different material conveying pipes 302, after conveying, the servo motor 301 is started, the stirring blades 308 are driven to rotate by the rotating central rotating rod 307, so that the materials are uniformly stirred, the motor 304 is started again, the threaded rotating rod 309 in the material output pipe 305 is driven to rotate, the stirred materials can be conveyed to the conveying cavity 30501 through the material output pipe 305 by the rotating threaded rotating rod 309, and then conveyed to the second booster pump 40801 through the material conveying pipe 410, so that the materials are discharged.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. The above-described apparatus embodiments are merely illustrative, for example, the division of the units is merely a logical function division, and there may be other manners of division in actual implementation, and for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some communication interface, device or unit indirect coupling or communication connection, which may be in electrical, mechanical or other form.

Finally, it should be noted that: the above examples are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, but it should be understood by those skilled in the art that the present invention is not limited thereto, and that the present invention is described in detail with reference to the foregoing examples: any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or perform equivalent substitution of some of the technical features, while remaining within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention, and are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a mandarin fish fingerling artificial breeding equipment with systematic fodder, includes mandarin fish rearing pond (100), installation back plate (200), ceiling mechanism (400) and operating panel (500), install at the rear of mandarin fish rearing pond (100) installation back plate (200), ceiling mechanism (400) are installed in one side above installation back plate (200), operating panel (500) are installed in the place ahead of mandarin fish rearing pond (100), the below of operating panel (500) is provided with erection column (501);

characterized by further comprising:

the inside of pond (101) is in inside mandarin fish rearing pond (100), the inside of pond (101) is provided with filtration water (102), the four corners of inside wall of mandarin fish rearing pond (100) all is provided with protection translucent cover (103), the inside of protection translucent cover (103) all is provided with fry scanner (105), the inside of ceiling mechanism (400) is provided with second inner cavity (404), the top of second inner cavity (404) inside is provided with parcel board (405), the below of parcel board (405) is provided with sealed shielding plate (406), one side of sealed shielding plate (406) is provided with processing controller (40401), one side of processing controller (40401) is provided with transformer (40402), fry scanner (105) and processing controller (40401) are through wireless signal transmission, the opposite side of sealed shielding plate (406) is provided with material conveying pipe (410), the inside of material conveying pipe (410) is provided with output cavity (411), the below of second inner cavity (404) is provided with pressurization end (408), the second end (408) of ceiling mechanism (408) is provided with pressurization end (35), two sides of the second booster pump (40801) are rotationally connected with the ceiling mechanism (400) through a rotary motor (409), two sides of the rotary end (408) are provided with image pickup end devices (412), and the image pickup end devices (412) are provided with two;

the conveying pump (104) is arranged in front of the lower end face of the installation rear plate (200), an output water port (201) is formed in the front end face of the installation rear plate (200), a plurality of protruding battens (202) are arranged below the output water port (201), the protruding battens (202) are fixedly connected with the installation rear plate (200), and the conveying pump (104) is connected to one end of the output water port (201) through a first conveying pipeline (203);

display screen (401), it is installed ceiling mechanism (400), the preceding terminal surface of ceiling mechanism (400), the up end of ceiling mechanism (400) is provided with fixed strip (402), the both sides of fixed strip (402) all are provided with upset shielding plate (403), and upset shielding plate (403) are provided with two, two upset shielding plate (403) all rotate with fixed strip (402) damping to be connected, the inside of parcel board (405) is provided with third inner chamber (40501), the inside of third inner chamber (40501) is provided with first force (40502), the below of first force (forcing) pump (40502) is provided with second raceway (40504), second raceway (40504) are connected with delivery pump (104) through second delivery pipe (204), and second delivery pipe (204) extend to parcel board (405) outside, the top of first force (forcing) pump (40502) is provided with first raceway (40503), and first raceway (40503) are provided with two inside of both sides (40503) are fixed on two sides.

2. An artificial breeding device for mandarin fish fries with systematic feed according to claim 1, wherein: both camera head devices (412) are electrically connected with the processing controller (40401).

3. An artificial breeding device for mandarin fish fries with systematic feed according to claim 1, wherein: both sides of the lower end face of the ceiling mechanism (400) are provided with lighting devices (407), and the lighting devices (407) are provided with two.

4. An artificial breeding device for mandarin fish fries with systematic feed according to claim 1, wherein: one side of pond (100) is raised to mandarin fish is provided with filtration temperature control equipment (600), the side of filtration temperature control equipment (600) is provided with access panel (602), access panel (602) are through hex bolts (603) and filtration temperature control equipment (600) threaded connection, and hex bolts (603) are provided with four, one side of filtration temperature control equipment (600) is provided with in the output into pipe (601), in the output into pipe (601) one end install inside filtration temperature control equipment (600), in the other end of in the output into pipe (601) goes deep into filtration water (102), the front end of filtration temperature control equipment (600) is provided with louvre groove (604), and louvre groove (604) are provided with a plurality of.

5. The artificial breeding device for mandarin fish fries with systematic feed of claim 4, wherein: the mandarin fish feeding pond is characterized in that preformed hole grooves (106) are formed in the lower portion of one side of the inner wall of the mandarin fish feeding pond (100), two preformed hole grooves (106) are formed, and filter screens (107) are arranged in the two preformed hole grooves (106).

6. An artificial breeding device for mandarin fish fries with systematic feed according to claim 1, wherein: the rear of installation back plate (200) is provided with rabbling mechanism (300), rabbling mechanism (300) are connected with installation back plate (200) through material output tube (305), the inside top of installation back plate (200) is provided with carries cavity (30501), carry cavity (30501) one end to be connected with material output tube (305), carry cavity (30501) other end to be connected with output cavity (411).

7. The artificial breeding device for mandarin fish fries with systematic feed of claim 6, wherein: the stirring mechanism is characterized in that a servo motor (301) is arranged above the stirring mechanism (300), a motor (304) is arranged below the stirring mechanism (300), a conveying material pipe (302) is arranged above the outer wall of the stirring mechanism (300), two conveying material pipes (302) are arranged, and an observation window (303) is formed in the outer wall of the stirring mechanism (300).

8. The artificial breeding device for mandarin fish fries with systematic feed according to claim 7, wherein: the stirring mechanism is characterized in that a first inner cavity (306) is arranged in the stirring mechanism (300), a central rotating rod piece (307) is arranged in the first inner cavity (306), the upper end of the central rotating rod piece (307) is connected with an output shaft below the servo motor (301), stirring blades (308) are arranged on two sides of the central rotating rod piece (307), two groups of stirring blades (308) are arranged, and the two groups of stirring blades (308) are fixedly connected with the central rotating rod piece (307).

9. The artificial breeding device for mandarin fish fries with systematic feed according to claim 8, wherein: a threaded rotating rod (309) is arranged in the material output pipe (305), and one end of the threaded rotating rod (309) is installed on the motor (304).

10. A method of using a device for artificial breeding of mandarin fish fries with a systematic feed as claimed in any one of claims 1-9, comprising the steps of:

s1: after the mandarin fish fries are placed in an inner pond (101) in a mandarin fish raising pond (100), a filtering temperature control device (600) is started through an operation panel (500), the internal water quality is filtered and controlled in temperature through the filtering temperature control device (600), then a conveying pump (104) is started through the operation panel (500), water is conveyed to an output water port (201) through a first conveying pipeline (203), a water source is discharged through the output water port (201), the water source passes through a raised batten (202) in the falling process, so that the internal filtering water (102) is oxygenated or oxygenated, during filtering, the water is conveyed to the filtering temperature control device (600) through a reserved hole groove (106), and then the filtered water (102) is conveyed back to the inner pond (101) through an output inner inlet pipe (601) on the filtering temperature control device (600), and meanwhile, when mandarin fish fries are bred, the filtering temperature control device (600) can perform temperature control on the filtering water (102), so that the mandarin fish fries have good breeding environments;

s2: when mandarin fish fries are fed, the sizes of the fries can be obtained through a fries scanner (105) arranged on the mandarin fish raising pond (100), then the required material quantity is obtained through a processing controller (40401) according to the sizes of the fries, the positions of the fries are shot by a shooting end device (412), when the mandarin fish fries are fed, the fed feed can be uniformly scattered into the mandarin fish raising pond (100) through rotating a rotating end (408) by plus or minus 120 degrees, meanwhile, the problem that the fries are concentrated in one area and do not eat the feed can be avoided, and meanwhile, the internal water quality can be observed through shooting;

s3: when the device is required to be cleaned regularly, the conveying pump (104) is arranged to convey the pumped water to the second water conveying pipe (40504) through the second conveying pipe (204), then the pumped water is conveyed to the first pressurizing pump (40502) through the second water conveying pipe (40504), and finally the pumped water is discharged through the first water conveying pipe (40503), so that the ceiling mechanism (400) can be cleaned regularly, and dust accumulation is avoided;

s4: according to the requirements, feeds with different nutrition are conveyed into a stirring mechanism (300) through different conveying material pipes (302), after conveying, a servo motor (301) is started, a rotating center rotating rod piece (307) drives a stirring blade (308) to rotate, so that the materials are uniformly stirred, a motor (304) is started again, a threaded rotating rod (309) in a material output pipe (305) is driven to rotate, the rotating threaded rotating rod (309) can convey the stirred materials to a conveying cavity (30501) through the material output pipe (305), and then the stirred materials are conveyed to a second booster pump (40801) through a material conveying pipe (410), so that the materials are discharged.

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