CN115053839A - Water inlet and outlet system of leech culture pond and use method of water inlet and outlet system - Google Patents

Abstract

The invention discloses a water inlet and outlet system of a leech culture pond and a use method thereof, the water inlet and outlet system comprises an assembly bottom plate, four support rods are fixedly arranged at the top of the assembly bottom plate, a culture box is fixedly arranged between the tops of the four support rods, a substance analysis mechanism is arranged on one side of the outer wall of the culture box, a water source circulation mechanism is arranged at the bottom of the culture box, the substance analysis mechanism comprises two water inlet pipelines, the two water inlet pipelines are arranged on one side of the outer wall of the culture box, the water outlet ends of the two water inlet pipelines penetrate through one side of the outer wall of the culture box and are communicated with the interior of the culture box, the quality of water is detected by equipment in the water inlet process, the water source filled into the culture box is ensured to meet the growth condition of leeches, the problem that the leeches grow slowly or die in the growth process because the substandard water source is directly subjected to the culture process of the leeches is avoided, increasing the survival amount of leeches.

Description

Water inlet and outlet system of leech culture pond and use method of water inlet and outlet system

Technical Field

The invention relates to the technical field of leech culture equipment, in particular to a water inlet and outlet system of a leech culture pond and a using method thereof.

Background

The Hirudo is dried whole body of Whitmania pigra Whitman, Whitmania pigra Whitman or Whitmania acranulata Whitman of Hirudinidae. Captured in summer and autumn, killed by boiling water, dried in the sun or at low temperature, and has wide distribution range, which is common in most areas of China. The leech bait has the effects of breaking blood, stimulating the menstrual flow, removing blood stasis and relieving symptoms, is used for blood stasis amenorrhea, abdominal mass, stroke hemiplegia, traumatic injury, the growth of leech is properly warm at 10-40 ℃, the leech enters a hibernation period in soil when the temperature is lower than 3 ℃ in northern areas, the leech can bite at about 8 ℃ in 3-4 months in the next year, the leech is a omnivorous animal, the blood or body fluid of the animal is taken as a main living mode, plankton, insects and mollusks in water are taken as main baits, and various animal viscera, cooked egg yolk, compound feed, plant residues, freshwater snail shells, omnivorous fishes, earthworms and the like are taken as the baits under artificial conditions.

When leech is cultivated, the pH value of water is usually set to be 6-8, leech breathing difficulty can be caused until leech death due to the acidic process of a water source, the alkalinity of the water source is too high, and the outer skin of leech can be damaged due to the fact that internal substances of the water source are highly corrosive, and the death of leech can be caused finally.

However, the water inlet and outlet system of the cultivation equipment has the following defects:

the existing equipment cannot detect the ingested water source in the water intake process due to the unicity of the internal structure, no matter natural water or tap water is obtained through outside rainfall, the rainwater can be fused with chemical substances drifting in the air in the falling process, and the chemical substances can also react with various substances after contacting with the ground, so that the chemical properties of the water source are changed, and the later growth of the leech can be influenced when the water source filled in the equipment is not in accordance with the growth condition of the leech.

Therefore, we propose a water intake and drainage system for a leech culture pond and a method for using the same so as to solve the problems mentioned above.

Disclosure of Invention

The invention aims to provide a water inlet and outlet system of a leech culture pond and a use method thereof.

In order to achieve the purpose, the invention provides the following technical scheme: a water inlet and drainage system of a leech culture pond comprises an assembly bottom plate, wherein four support rods are fixedly installed at the top of the assembly bottom plate, a culture box is fixedly installed between the tops of the four support rods, a substance analysis mechanism is arranged on one side of the outer wall of the culture box, and a water source circulation mechanism is arranged at the bottom of the culture box;

the material analysis mechanism comprises two water inlet pipelines, wherein the two water inlet pipelines are arranged on one side of the outer wall of the breeding box, the water outlet ends of the two water inlet pipelines penetrate through one side of the outer wall of the breeding box and are communicated with the interior of the breeding box, PH detection heads are fixedly inserted in the two water inlet pipelines, material analyzers are fixedly connected to the tops of the two PH detection heads, the detection ends of the two material analyzers are respectively arranged in the water inlet pipelines, a wiring box is fixedly arranged on the outer surface wall of the breeding box, a PCB panel is arranged in the wiring box, a group of contact bases are fixedly connected to the outer surface wall of the PCB panel, a receiving module, a data preprocessing module and a transmission module are respectively arranged in the contact bases, a reinforcing plate A is fixedly arranged on the outer surface wall of the breeding box through a group of screws A, and two L-shaped frames are welded on the outer surface wall of the reinforcing plate A, the outer surface walls of the two L-shaped frames are fixedly inserted with external connecting rods, receivers are fixedly sleeved between the outer surface walls of the two external connecting rods, and information wires are arranged inside the receivers.

Preferably, a combined line is fixedly connected between the output ends of the two substance analyzers, the output end of the combined line is connected with the wiring end of the wiring box, the output end of the wiring box is fixedly connected with a group of information lines, and the output ends of the group of information lines are connected with the input end of the receiver.

Preferably, the output end of the receiving module is fixedly connected with a wire A, the output end of the wire A is connected with the input end of the data preprocessing module, the output end of the data preprocessing module is fixedly connected with a wire B, and the output end of the wire B is connected with the input end of the transmission module.

Preferably, the water source circulation mechanism includes the backward flow case, the bottom fixed mounting of backward flow case is at the top of assembly plate, the fixed intercommunication in top of assembly plate has a set of drainage pipe, and is a set of the top of backward flow case is all run through to drainage pipe's play water end to be linked together with the inside of backward flow case, and is a set of drainage pipe's inside all is provided with electric valve, outer wall one side fixed intercommunication have a set of reposition of redundant personnel pipeline, and is a set of the inside of reposition of redundant personnel pipeline all is provided with manual valve.

Preferably, the slide ways are fixedly mounted on two sides of the inner wall of the backflow box, the rectangular groove is formed in the front surface of the backflow box, the baffle is arranged inside the rectangular groove, the filter plate is fixedly mounted on the rear surface of the baffle, the outer surface wall of the filter plate is movably arranged between the inner surface walls of the two baffles, and the handle is fixedly mounted on the front surface of the baffle.

Preferably, there is a reinforcing plate B on one side of the outer wall of the cultivation box through a set of screws B, a grafting plate is welded on the outer surface wall of the reinforcing plate B, two connection lantern rings are fixedly installed on the top of the grafting plate, and a water suction pump is fixedly inserted into the inner surface wall of each connection lantern ring.

Preferably, the outer wall one side of backward flow case is fixed the intercommunication and is had a set of elementary water carrying pipeline, and is a set of the play water end of elementary water carrying pipeline is linked together with the input of suction pump respectively, and is a set of the output of suction pump all is fixed the intercommunication and has secondary water carrying pipeline, and is a set of the play water end of secondary water carrying pipeline all runs through the outer wall one side of breeding the case to be linked together with the inside of breeding the case.

Preferably, a set of the water outlet end of the water inlet pipeline is provided with a screen A, and a set of the water inlet end of the water outlet pipeline is provided with a screen B.

A use method of a water inlet and drainage system of a leech culture pond comprises the following steps:

the method comprises the following steps: during leech cultivation, when a water source is required to be filled into the cultivation box, the external pipeline is communicated with the water inlet pipeline, the water source can continuously enter the cultivation box through the conveying of the water inlet pipeline and is in contact with the PH detection head and the detection end of the substance analyzer, and then the PH detection head and the substance analyzer detect the PH pH value and various substance data of the water source.

Step two: the two acquired information are quickly transmitted to the distribution box through the combination line in an electric signal form and are received by the receiving module, data signals are converted, the further processed data are input into the data preprocessing module for integration, and the data model is quickly drawn according to the content of each substance in each item of data.

Step three: after the analyzed and processed data are input into the transmission module, the next step of data transmission is rapidly carried out, and the data are rapidly led into the receiver through the information wire.

Step four: the data entering the receiver is displayed by a visual screen for the operator to view.

Preferably, in the first step, in the leech culturing process, because the growth rate of each leech in the culturing box is unequal, and then the leech with a large size in the culturing box needs to be sorted out in different periods, at the moment, the electric valve is opened, the internal channel of the drainage pipeline is opened, a water source in the culturing box can continuously enter the interior of the backflow box through the conveying of the drainage pipeline, after the water source is contacted with the surface of the filter plate, excrement and food residues doped in the water source are quickly removed, a clean water source is filtered out, after the sorting work is completed, the water suction pump in the connecting sleeve is started, the water source treated in the backflow box is quickly extracted, and the water source is conveyed through the primary water conveying pipeline and the secondary water conveying pipeline, so that the water source is poured into the interior of the culturing box again.

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

1. the invention can measure the pH value of the water source and the content of each substance in the water source by arranging the substance analysis mechanism, when an external water source is poured into the culture box from the water inlet pipeline, the PH detection head and the substance analyzer which are contacted with the water source can measure the pH value of the water source and the content of each substance in the water source, the two electric signals are input into the receiving module to quickly convert the numerical signals, when the converted numerical signals are transmitted into the data preprocessing module, the data preprocessing module integrates each estimated data and maps out a data model, the distribution and the content of each substance can be more intuitively known by constructing the data model, the finally generated data model is received by the receiver and displayed by the visual screen, an operator can obtain the substances influencing the pH value of the water source by observing the data displayed in the visual screen and then customize a correct processing scheme, the device can detect the quality of water quality in the water inlet process, so that the water source filled into the cultivation box is ensured to meet the growth condition of the leech, the problem that the leech grows slowly or dies due to the fact that the water source which does not reach the standard is directly cultivated in the leech cultivation process is avoided, and the survival quantity of the leech is increased.

2. According to the invention, the water source circulating mechanism is arranged, and because the leech is regularly added with the disinfectant at the water source in the culturing process, the disinfectant is used for inhibiting the growth of harmful substances and reducing the generation of alkaline substances, the leech is required to be rapidly screened out at regular intervals in the leech culturing process, the water source in the culturing box is required to be released in the process, when the water source is continuously conveyed into the backflow box through the drainage pipeline, the filter plate and the excrement and food residues generated in the life of the leech are filtered, and after the leech with a large size is screened out, the filtered water source can be conveyed into the culturing box again by the driving part in the mechanism, so that the water source is reused.

Drawings

FIG. 1 is a perspective view of a front view structure of a water intake and discharge system of a leech culture pond and a use method thereof;

FIG. 2 is a side view of a water intake and drainage system of a leech cultivation pond and a method for using the same;

FIG. 3 is an enlarged perspective view of a structure of a substance analyzing mechanism in the water intake and discharge system of the leech culturing pool and the use method thereof according to the present invention;

FIG. 4 is an enlarged perspective view of a water source circulation mechanism in the water intake and drainage system of a leech cultivation pond and the method of using the same of the present invention;

FIG. 5 is a schematic view of the internal structure of a backflow box in the water intake and drainage system of the leech culture pond and the use method thereof according to the present invention;

FIG. 6 is an enlarged perspective view of a portion of the structure of a water intake and discharge system of a leech culture pond and a method for using the same according to the present invention;

FIG. 7 is an enlarged perspective view of the internal structure of a cultivation box in the water intake and drainage system of a leech cultivation pond and the use method thereof according to the present invention;

fig. 8 is an enlarged perspective view of a structure A in fig. 1 of a water intake and drainage system of a leech culture pond and a use method thereof.

In the figure: 1. assembling a bottom plate; 2. a support bar; 3. a cultivation box; 4. a substance analysis mechanism; 401. a water inlet pipe; 402. a pH detection head; 403. a substance analyzer; 404. a wiring box; 405. a PCB panel; 406. a contact base; 407. a receiving module; 408. a data preprocessing module; 409. a transmission module; 410. combining wires; 411. a reinforcing plate A; 412. an L-shaped frame; 413. a receiver; 414. a visual screen; 415. an information line; 5. a water source circulation mechanism; 501. a return tank; 502. a water drainage pipeline; 503. an electrically operated valve; 504. a slideway; 505. a rectangular groove; 506. a baffle plate; 507. a filter plate; 508. a handle; 509. a reinforcing plate B; 510. a grafting plate; 511. a connecting lantern ring; 512. a water pump; 513. a primary water transport conduit; 514. a secondary water transport pipeline; 515. a diversion pipeline; 516. a manual valve; 6. a screen A; 7. and a screen B.

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 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.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a leech culture pond water inlet and outlet system, includes assembly plate 1, and assembly plate 1's top fixed mounting has four bracing pieces 2, and fixed mounting has breed case 3 between four bracing pieces 2's the top, and outer wall one side of breeding case 3 is provided with material analysis mechanism 4, and the bottom of breeding case 3 is provided with water source circulation mechanism 5.

According to fig. 1-3 and 8, the material analyzing mechanism 4 comprises two water inlet pipes 401, wherein the two water inlet pipes 401 are arranged on one side of the outer wall of the cultivation box 3, the water outlet ends of the two water inlet pipes 401 penetrate through one side of the outer wall of the cultivation box 3 and are communicated with the inside of the cultivation box 3, PH detecting heads 402 are fixedly inserted into the two water inlet pipes 401, material analyzers 403 are fixedly connected to the tops of the two PH detecting heads 402, the detecting ends of the two material analyzers 403 are respectively arranged inside the water inlet pipes 401, a wiring box 404 is fixedly arranged on the outer wall of the cultivation box 3, a PCB panel 405 is arranged inside the wiring box 404, a group of contact bases 406 is fixedly connected to the outer wall of the PCB panel 405, a receiving module 407, a data preprocessing module 408 and a transmission module 409 are respectively arranged inside the group of contact bases 406, a reinforcing plate a411 is fixedly arranged on the outer wall of the cultivation box 3 through a group of screws a, two L-shaped frames 412 are welded on the outer surface walls of the reinforcing plate A411, extension rods are fixedly inserted into the outer surface walls of the two L-shaped frames 412, a receiver 413 is fixedly sleeved between the outer surface walls of the two extension rods, an information line 415 is arranged inside the receiver 413, the pH value of a water source can be detected in real time in the process of filling the water source into the cultivation box 3, the proportion of each chemical substance in the water source is rapidly analyzed by a substance analyzer 403, a numerical model is constructed by a data preprocessing module 408 through estimated data and displayed through a visual screen 414, an operator can know the type of an overproof substance according to the substance proportion displayed by a graphic numerical value, and finally a correct water purification scheme is selected to improve the water source to a condition suitable for leech growth in time.

According to fig. 3 and 8, a combined line 410 is fixedly connected between the output ends of two substance analyzers 403, the output end of the combined line 410 is connected with the terminal of the wiring box 404, the output end of the wiring box 404 is fixedly connected with a group of information lines 415, the output ends of the group of information lines 415 are connected with the input end of a receiver 413, and the combined line 410 and the information lines 415 are arranged for transmitting electric signals and data signals.

According to fig. 3, the output end of the receiving module 407 is fixedly connected with a wire a, the output end of the wire a is connected with the input end of the data preprocessing module 408, the output end of the data preprocessing module 408 is fixedly connected with a wire B, the output end of the wire B is connected with the input end of the transmission module 409, and the wire a and the wire B are arranged for data transmission among the receiving module 407, the data preprocessing module 408 and the transmission module 409.

According to fig. 1-2 and 4, the water source circulating mechanism 5 comprises a return tank 501, the bottom of the return tank 501 is fixedly installed at the top of the assembly bottom plate 1, the top of the assembly bottom plate 1 is fixedly communicated with a group of drainage pipelines 502, the water outlet ends of the group of drainage pipelines 502 penetrate through the top of the return tank 501 and are communicated with the inside of the return tank 501, the group of drainage pipelines 502 are respectively provided with an electric valve 503, one side of the outer wall of the assembly bottom plate 501 is fixedly communicated with a group of shunt pipelines 515, the group of shunt pipelines 515 are respectively provided with a manual valve 516, and by arranging the electric valve 503, the circulation and the closing of the inner channel of the drainage pipeline 502 can be controlled.

As shown in fig. 4-5, the two sides of the inner wall of the reflow box 501 are fixedly provided with slideways 504, the front surface of the reflow box 501 is provided with a rectangular groove 505, a baffle 506 is arranged inside the rectangular groove 505, the rear surface of the baffle 506 is fixedly provided with a filter plate 507, the outer surface wall of the filter plate 507 is movably arranged between the inner surface walls of the two baffles 506, the front surface of the baffle 506 is fixedly provided with a handle 508, and by utilizing the movable connection between the slideways 504 and the filter plate 507, the handle 508 can be held by hand to exert pulling force outwards, so that the filter plate 507 can be pulled out of the inside of the reflow box 501, and the difficulty in cleaning and replacing the filter plate 507 is reduced.

According to the illustration in fig. 6, a reinforcing plate B509 is fixedly installed on one side of the outer wall of the cultivation box 3 through a group of screws B, a grafting plate 510 is welded on the outer wall of the reinforcing plate B509, two connection lantern rings 511 are fixedly installed on the top of the grafting plate 510, water pumps 512 are fixedly inserted into the inner surface walls of the two connection lantern rings 511, and water sources processed in the backflow box 501 can be quickly extracted through the arrangement of the water pumps 512 and the adsorption effect generated by rotation of internal impellers of the water pumps.

According to fig. 6, a group of primary water transporting pipelines 513 is fixedly communicated with one side of the outer wall of the return tank 501, the water outlet ends of the group of primary water transporting pipelines 513 are respectively communicated with the input ends of the water pumps 512, the output ends of the group of water pumps 512 are respectively fixedly communicated with the secondary water transporting pipelines 514, the water outlet ends of the group of secondary water transporting pipelines 514 penetrate through one side of the outer wall of the cultivation tank 3 and are communicated with the inside of the cultivation tank 3, and the water source treated in the return tank 501 can be continuously conveyed into the inside of the cultivation tank 3 by arranging the primary water transporting pipelines 513 and the secondary water transporting pipelines 514.

According to the embodiment shown in fig. 1-2, the water outlet ends of the water inlet pipes 401 are all provided with the screen A6, the water inlet ends of the water outlet pipes 502 are all provided with the screen B7, and the screen A6 and the screen B7 are arranged to effectively prevent part of leeches from escaping from the water inlet pipes 401 and the water outlet pipes 502 to the inside of the cultivation box 3 in the cultivation process.

The effect that its whole mechanism reached does: firstly, moving the equipment to a designated working area, enabling the bottom of the assembly bottom plate 1 to be fully contacted with the ground, when a water source is needed to be filled in the cultivation box 3 during cultivation of leeches, firstly, communicating an external pipeline with a water inlet pipeline 401, conveying the water source through the water inlet pipeline 401 to continuously enter the cultivation box 3 and be contacted with a PH detection head 402 and a detection end of a substance analyzer 403, detecting the PH pH value of the water source and various substance data by the PH detection head 402 and the substance analyzer 403, quickly transmitting the obtained two pieces of information to a wiring box 404 through a combination line 410 in an electric signal form, receiving the information by a receiving module 407, converting data signals, inputting the further processed data into a data preprocessing module 408 for integration, quickly drawing a data model according to the content of each substance in each piece of data, after the analyzed and processed data is input into the transmission module 409, the next step of data transmission is rapidly performed, the data is rapidly led into the receiver 413 through the information line 415, and the data entering the receiver 413 is displayed by the visual screen 414 for an operator to check.

The invention also provides a use method of the water inlet and outlet system of the leech culture pond, which comprises the following steps:

the method comprises the following steps: during leech cultivation, when a water source is required to be filled into the cultivation box 3, the external pipeline is communicated with the water inlet pipeline 401, the water source can continuously enter the cultivation box 3 through the conveying of the water inlet pipeline 401 and is in contact with the detection ends of the PH detection head 402 and the substance analyzer 403, and then the PH detection head 402 and the substance analyzer 403 detect the PH pH value and various substance data of the water source.

Step two: the two acquired information are quickly transmitted to the wiring box 404 through the combined line 410 in the form of electric signals and received by the receiving module 407, data signals are converted, the further processed data are input into the data preprocessing module 408 for integration, and a data model is quickly drawn according to the content of each substance corresponding to each item of data.

Step three: after the analyzed data is inputted into the transmission module 409, the next transmission of the data is performed quickly, and the data is led into the receiver 413 through the information line 415 quickly.

Step four: data entering the receiver 413 is presented by a visual screen 414 for viewing by an operator.

The use method of the water inlet and outlet system of the leech culture pond is approximately the same as that of the water inlet and outlet system of the leech culture pond, and the main differences exist as follows: in the leech culturing process, because the growth rates of all leeches in the culturing box 3 are not equal, and then the leeches with larger body types in the culturing box 3 need to be sorted out in different periods, at the moment, the electric valve 503 is opened, the internal channel of the drainage pipeline 502 is opened, the water source in the culturing box 3 can continuously enter the interior of the backflow box 501 through the conveying of the drainage pipeline 502, after the water source is contacted with the surface of the filter plate 507, excrement and food residues doped in the water source are quickly removed, a clean water source is filtered, after the sorting work is finished, the water suction pump 512 in the connecting sleeve ring 511 is started, the treated water source in the backflow box 501 is quickly extracted, and the water source is conveyed through the primary water conveying pipeline 513 and the secondary water conveying pipeline 514, so that the water source is poured into the interior of the culturing box 3 again.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a leech culture pond advances drainage system which characterized in that: the device comprises an assembly bottom plate (1), wherein four support rods (2) are fixedly mounted at the top of the assembly bottom plate (1), a culture box (3) is fixedly mounted between the tops of the four support rods (2), a substance analysis mechanism (4) is arranged on one side of the outer wall of the culture box (3), and a water source circulation mechanism (5) is arranged at the bottom of the culture box (3);

substance analysis mechanism (4) includes two inlet channels (401), two inlet channel (401) all sets up in the outer wall one side of breeding case (3), and the outer wall one side of breeding case (3) is all run through to the play water end of two inlet channel (401), and with the inside intercommunication of breeding case (3), two the inside of inlet channel (401) is all fixed to be inserted and is equipped with PH detection head (402), two the equal fixedly connected with material analysis appearance (403) in top of PH detection head (402), and the inside of inlet channel (401) is arranged respectively in to the detection end of two material analysis appearance (403), the outward appearance wall fixed mounting who breeds case (3) has wiring case (404), the inside of wiring case (404) is provided with PCB panel (405), the outward appearance wall fixed connection of PCB panel (405) has a set of contact base (406), and is a set of the inside of contact base (406) is provided with receiving module (407) respectively, Data preprocessing module (408) and transmission module (409), the exterior wall of breeding case (3) has reinforcing plate A (411) through a set of screw A fixed mounting, the exterior wall welding of reinforcing plate A (411) has two L type framves (412), two the exterior wall of L type frame (412) all is fixed to be inserted and is equipped with the extension bar, and fixed cover between the exterior wall of two extension bars is equipped with receiver (413), the inside of receiver (413) is provided with information line (415).

2. The leech culture pond water intake and drainage system of claim 1, wherein: a combined line (410) is fixedly connected between the output ends of the two substance analyzers (403), the output end of the combined line (410) is connected with the terminal of the wiring box (404), the output end of the wiring box (404) is fixedly connected with a group of information lines (415), and the output ends of the group of information lines (415) are connected with the input end of the receiver (413).

3. The leech culture pond water intake and drainage system of claim 1, wherein: the output end of the receiving module (407) is fixedly connected with a wire A, the output end of the wire A is connected with the input end of the data preprocessing module (408), the output end of the data preprocessing module (408) is fixedly connected with a wire B, and the output end of the wire B is connected with the input end of the transmission module (409).

4. The leech culture pond water feeding and draining system according to claim 1, wherein: the water source circulating mechanism (5) comprises a backflow box (501), the bottom of the backflow box (501) is fixedly installed at the top of an assembly bottom plate (1), the top of the assembly bottom plate (1) is fixedly communicated with a set of drainage pipelines (502), the water outlet ends of the drainage pipelines (502) penetrate through the top of the backflow box (501) and are communicated with the inside of the backflow box (501), the drainage pipelines (502) are all provided with electric valves (503), one side of the outer wall of the assembly bottom plate (501) is fixedly communicated with a set of flow distribution pipelines (515), and the flow distribution pipelines (515) are all provided with manual valves (516).

5. The leech culture pond water intake and drainage system of claim 4, wherein: the equal fixed mounting in inner wall both sides of backward flow case (501) has slide (504), rectangle recess (505) have been seted up on the positive surface of backward flow case (501), the inside of rectangle recess (505) is provided with baffle (506), the rear surface fixed mounting of baffle (506) has filter (507), the activity of the exterior wall of filter (507) sets up between the interior table wall of two baffles (506), the positive fixed surface of baffle (506) installs handle (508).

6. The leech culture pond water intake and drainage system of claim 4, wherein: breed outer wall one side of case (3) and have reinforcing plate B (509) through a set of screw B fixed mounting, the exterior wall welding of reinforcing plate B (509) has grafting board (510), the top fixed mounting of grafting board (510) has two to connect lantern ring (511), two the interior table wall of connecting lantern ring (511) all is fixed to be inserted and is equipped with suction pump (512).

7. The leech culture pond water intake and drainage system of claim 6, wherein: the fixed intercommunication in outer wall one side of backward flow case (501) has a set of elementary water pipe way (513), and is a set of the play water end of elementary water pipe way (513) is linked together with the input of suction pump (512) respectively, and is a set of the output of suction pump (512) all is fixed the intercommunication and has secondary water pipe way (514), and is a set of the play water end of secondary water pipe way (514) all runs through outer wall one side of breeding case (3) to be linked together with the inside of breeding case (3).

8. The leech culture pond water intake and drainage system of claim 4, wherein: and the water outlet end of the water inlet pipeline (401) is provided with a screen A (6), and the water inlet end of the water outlet pipeline (502) is provided with a screen B (7).

9. A method for using a water inlet and drainage system of a leech culture pond, which uses the water inlet and drainage system of the leech culture pond according to any one of claims 1 to 8, and comprises the following steps:

s1: when leeches are cultured, when a water source is needed to be filled into the culturing box (3), the external pipeline is communicated with the water inlet pipeline (401), the water source can continuously enter the culturing box (3) through the conveying of the water inlet pipeline (401) and is contacted with the PH detection head (402) and the detection end of the substance analyzer (403), and then the PH detection head (402) and the substance analyzer (403) detect the PH pH value and various substance data of the water source;

s2: the two acquired information are quickly transmitted to a wiring box (404) through a combined line (410) in an electric signal form and received by a receiving module (407), data signals are converted, the further processed data are input into a data preprocessing module (408) for integration, and a data model is quickly drawn according to the content of each substance corresponding to each item of data;

s3: when the analyzed and processed data are input into a transmission module (409), the next step of data transmission is rapidly carried out, and the data are rapidly led into a receiver (413) through an information line (415);

s4: data entering the receiver (413) is presented by a visual screen (414) for viewing by an operator.

10. The use method of the water intake and drainage system of the leech culture pond according to claim 1, wherein the water intake and drainage system comprises: in the S1, because the growth rate of each leech in the cultivation box (3) is not equal in the leech cultivation process, then leeches with larger body types in the breeding box (3) are selected out in different periods, at the moment, the electric valve (503) is opened, the internal channel of the drainage pipeline (502) is opened, the water source in the breeding box (3) can continuously enter the interior of the return box (501) through the conveying of the drainage pipeline (502), after the water source is contacted with the surface of the filter plate (507), excrement and food residues doped in the water source are quickly removed, clean water source is filtered out, after the selection is finished, a water pump (512) in the connecting lantern ring (511) is started to quickly pump the water source treated in the return tank (501), the water supply is conveyed through a primary water conveying pipeline (513) and a secondary water conveying pipeline (514), so that the water supply is poured into the interior of the cultivation box (3) again.

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