CN215684259U - Fish-plant symbiotic system with plant state detection function - Google Patents

Abstract

The application relates to the technical field of fish and plant symbiosis, in particular to a fish and plant symbiosis system with plant state detection, which has the technical scheme that the system also comprises a controller, a display and a plant leaf growth sensor arranged on aquatic plant leaves, wherein the plant leaf growth sensor is electrically connected with the controller, and the controller is electrically connected with the display; the plant leaf growth sensor can acquire the growth condition of the aquatic plant leaves in real time, and simultaneously can feed back the data to the controller in real time, the controller analyzes the data and converts the data into electric signals to feed back the electric signals to the display, and the display displays the data for operators to refer to; the operation mode is convenient for operators to know the growth condition of the plants in real time, and the observation convenience is greatly improved.

Description

Fish-plant symbiotic system with plant state detection function

Technical Field

The application relates to the technical field of fish-plant symbiosis, in particular to a fish-plant symbiosis system with plant state detection.

Background

The fish and plant symbiotic system is a novel mutualistic symbiotic system; in the related technology, the fish and plant symbiotic system comprises a culture barrel for culturing fish, a water outlet pipe arranged at the lower end of the culture barrel and communicated with the culture barrel, an aquatic plant planting pool arranged at one end of the water outlet pipe far away from the culture barrel and communicated with the water outlet pipe, and a water return pipe arranged between the aquatic plant planting pool and the culture barrel; the fish is bred and breeds in breeding the bucket, and organic matters such as fish exhaust excrement and urine can flow into aquatic plant through the outlet pipe and plant the pond in, and then realize providing the purpose of nutrient for aquatic plant, and water in the aquatic plant plants pond at last can flow back into through the wet return and breed in the bucket.

In view of the above-mentioned related art solutions, the inventors found that: if the operator wants to know the growth condition of the aquatic plants, the operator can only stand at the edge of the aquatic plant planting pond and observe the aquatic plants by naked eyes, and the operation mode is inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the real-time acquisition of the growth condition of plants, the application provides a fish and plant symbiotic system with plant state detection.

The application provides a take fish of plant state detection to plant symbiotic system adopts following technical scheme:

the utility model provides a take fish of plant state detection to plant symbiotic system, still includes controller, display and sets up the plant leaf growth sensor on the aquatic plant leaf, and plant leaf growth sensor is connected with the controller electricity, and the controller is connected with the display electricity.

By adopting the technical scheme, the plant leaf growth sensor can acquire the growth condition of the aquatic plant leaves in real time, and simultaneously can feed back the data to the controller in real time, the controller analyzes the data and converts the data into electric signals to feed back the electric signals to the display, and the display displays the data for operators to refer to; the operation mode is convenient for operators to know the growth condition of the plants in real time, and the observation convenience is greatly improved.

Preferably, still including breeding the bucket, setting up at the aquatic plant of breeding bucket one side and planting the pond, set up the wet return between breeding bucket and aquatic plant and planting the pond, set up the solenoid valve on the wet return and set up the level sensor in aquatic plant plants the pond, level sensor and solenoid valve all are connected with the controller electricity.

By adopting the technical scheme, the height of the water level in the aquatic plant planting pool can be monitored in real time by the arranged water level sensor, and when the water quantity in the aquatic plant planting pool needs to be adjusted, an operator can control the valve body in the electromagnetic valve through the controller so as to control the on-off of the water return pipe and further realize the adjustment of the water quantity; the water level sensor and the electromagnetic valve are arranged to realize the regulation of the water quantity in the aquatic plant planting pond, so that different aquatic plants and the same aquatic plants can be conveniently irrigated and cultivated properly in different periods.

Preferably, still including setting up the one end of keeping away from the breed bucket at the outlet pipe and with the biological filter material bucket of outlet pipe intercommunication, set up in biological filter material bucket inside and be located the biological filter material filter plate of outlet pipe below, set up between biological filter material bucket and aquatic plant planting pond and be located the biological filter material bucket outlet pipe of biological filter material filter plate below and set up the wet return between aquatic plant planting pond and breed bucket, biological filter material filter plate and biological filter material bucket looks adaptation.

Through adopting above-mentioned technical scheme, the biological filter material filter plate that sets up has played the effect of filtering impurity, has reduced the interior residual nourishment of breed bucket and impurity row aquatic plant and has planted the pond and lead to taking place accumulational possibility in aquatic plant plants the pond, has guaranteed aquatic plant's normal growth.

Preferably, the air inlet pipe is arranged between the air outlet of the air blower and the biological filter material barrel, and the air inlet pipe is positioned between the biological filter material filter plate and the water outlet pipe of the biological filter material barrel.

Through adopting above-mentioned technical scheme, the air-blower that sets up has improved the content of the water solution dissolved oxygen in the aquatic plant planting pond of arranging, and then has promoted the growth of aquatic plant.

Preferably, the device further comprises a backflow prevention valve arranged on the air inlet pipe.

Through adopting above-mentioned technical scheme, the valve of preventing flowing backwards that sets up has reduced the possibility that the aqueous solution in the biological filter material bucket flows into the air-blower, has guaranteed the life of air-blower.

Preferably, the water-returning device further comprises an aerator arranged on the water-returning pipe.

By adopting the technical scheme, the arranged aerator improves the content of dissolved oxygen in the water solution flowing back into the culture barrel.

Preferably, the water return device further comprises an ultraviolet germicidal lamp arranged on the water return pipe.

Through adopting above-mentioned technical scheme, the sterilamp that sets up has played the effect of killing the bacterium, has guaranteed the normal growth of fish.

Preferably, the water return device further comprises a water return pump installed on the water return pipe.

Through adopting above-mentioned technical scheme, the return water pump that sets up makes in the aquatic plant plants the aqueous solution in the pond can be faster, more stable backward flow advance breed the bucket in.

Preferably, an external power grid is connected; the automatic power supply system also comprises a standby generator, an ATS automatic change-over switch and a power supply module for supplying power to the whole system; the ATS automatic change-over switch is electrically connected with an external power supply network and the standby generator, and is connected with the power module.

By adopting the technical scheme, when the external power network is powered off, the ATS automatic transfer switch can be automatically connected with the standby generator, so that the electricity generated by the standby generator is transmitted to the power module through the ATS automatic transfer switch, and the power module supplies power to the fish-planting symbiotic system, so that the fish-planting symbiotic system can run in all weather; the ATS automatic change-over switch enables the external power grid and the standby generator to be switched to generate electricity in a seamless mode, and stable operation of the fish and plant symbiotic system is guaranteed.

In summary, the present application has the following technical effects:

the plant leaf growth sensor can acquire the growth condition of the aquatic plant leaves in real time, and simultaneously can feed back the data to the controller in real time, the controller analyzes the data and converts the data into electric signals to feed back the electric signals to the display, and the display displays the data for operators to refer to; the operation mode is convenient for operators to know the growth condition of the plants in real time, and the observation convenience is greatly improved;

the water level sensor can monitor the height of the water level in the aquatic plant planting pool in real time, and when the water quantity in the aquatic plant planting pool needs to be adjusted, an operator can control the valve body in the electromagnetic valve through the controller, so that the on-off of the water return pipe is controlled, and the adjustment of the water quantity is further realized; the arrangement of the water level sensor and the electromagnetic valve realizes the regulation of the water quantity in the aquatic plant planting pond, so that different aquatic plants and the same aquatic plants can be irrigated and cultivated properly in different periods;

the air blower arranged improves the content of dissolved oxygen in the water solution in the drained aquatic plant planting pond, and further promotes the growth of aquatic plants.

Drawings

FIG. 1 is a schematic structural diagram of a fish-plant symbiotic system in an embodiment of the present application;

FIG. 2 is a control system diagram of a fish-plant symbiotic system in an embodiment of the present application;

fig. 3 is an enlarged schematic view at a in fig. 1.

In the figure, 1, a cultivation barrel; 2. a water outlet pipe; 3. an aquatic plant planting pool; 4. a fixed value cup; 5. a plant leaf growth sensor; 6. a water return pipe; 7. a controller; 8. a display; 9. a biological filter material barrel; 10. a biological filter material filter plate; 11. a water outlet pipe of the biological filter material barrel; 12. a cover plate; 13. a blower; 14. an air inlet pipe; 15. a backflow prevention valve; 16. a water return pump; 17. an ultraviolet germicidal lamp; 18. an aerator; 19. a water level sensor; 20. an electromagnetic valve; 21. a standby generator; 22. ATS automatic transfer switch; 23. and a power supply module.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 1, the application provides a fish and plant symbiotic system with plant state detection, which comprises a plurality of culture barrels 1 which are vertically and uniformly arranged and have open upper ends, a water outlet pipe 2 which is arranged in the culture barrels 1 and is communicated with the culture barrels 1, a plurality of uniformly distributed aquatic plant planting ponds 3 which are arranged at one end of the water outlet pipe 2 far away from the culture barrels 1 and are communicated with the water outlet pipe 2, a plurality of constant value cups 4 which are uniformly arranged in the aquatic plant planting ponds 3, plant leaf growth sensors 5 which are arranged on aquatic plants, a water return pipe 6 which is arranged between the aquatic plant planting ponds 3 and the culture barrels 1, and a controller 7 and a display 8 which are arranged on one side of the culture barrels 1; wherein the breeding barrel 1 comprises a cylindrical part positioned at the upper part and a conical part positioned at the lower part; the plant leaf growth sensor 5 is electrically connected with the controller 7, and the controller 7 is electrically connected with the display 8; breed bucket 1 and be provided with nine in this application embodiment, aquatic plant plants pond 3 and is provided with six, and the one end and the 3 intercommunications in a plurality of aquatic plant plants pond of wet return 6, the other end and a plurality of 1 intercommunications of breeding the bucket.

The fish is bred in the breeding barrel 1, organic matters such as excrement discharged by the fish and residual nutrients in the breeding barrel 1 flow into the aquatic plant planting pond 3 along with the water outlet pipe 2, and the organic matters in the water provide nutrients for the aquatic plants; along with the increase of the water amount flowing into the aquatic plant planting pond 3, the water in the aquatic plant planting pond 3 flows back into the culture barrel 1 through the water return pipe 6, and the purpose of circulating symbiosis is further achieved; the plant leaf growth sensor 5 can acquire the growth condition of the aquatic plant leaves in real time, and simultaneously can feed back the data to the controller 7 in real time, the controller 7 analyzes the data, converts the data into electric signals and feeds the electric signals back to the display 8, and the display 8 displays the data for operators to refer to; the plant leaf growth sensor 5 is arranged to facilitate real-time learning of the growth condition of the plant, and the display 8 is arranged to facilitate real-time display of the growth condition of the plant; by the operation mode, the convenience and the safety of observation are greatly improved.

Referring to fig. 1 and 3, in order to reduce the possibility that the residual nutrients and impurities in the cultivation barrel 1 are discharged into the aquatic plant cultivation pond 3, the fish and plant symbiotic system further comprises a biological filter material barrel 9 vertically arranged between the water outlet pipe 2 and the aquatic plant cultivation pond 3 and having an open upper end, a biological filter material filter plate 10 horizontally arranged in the biological filter material barrel 9 and adapted to the inner wall of the biological filter material barrel 9, and a biological filter material barrel water outlet pipe 11 arranged between the biological filter material barrel 9 and the aquatic plant cultivation pond 3; wherein the biological filter material barrel 9 is communicated with the water outlet pipe 2 and the water outlet pipe 11 of the biological filter material barrel, the biological filter material filter plate 10 is positioned below the water outlet pipe 2, the water outlet pipe 11 of the biological filter material barrel is positioned below the biological filter material filter plate 10, and the water outlet pipe 11 of the biological filter material barrel is communicated with the six aquatic plant planting ponds 3.

The water solution in the culture barrel 1 carries residual nutrients and impurities to flow into the biological filter material barrel 9 from the water outlet pipe 2, the residual nutrients and the impurities are blocked by the biological filter material baffle, meanwhile, an operator puts nitrobacteria into the biological filter material barrel 9 through the upper port of the biological filter material barrel 9, and the putting of the nitrobacteria plays a role in purifying water quality; because the water outlet pipe 11 of the biological filter material barrel is positioned below the biological filter material filter plate 10, the water solution passing through the biological filter material filter plate 10 is discharged into the aquatic plant planting tank 3 through the water outlet pipe 11 of the biological filter material barrel, thereby realizing the purpose of supplying water and nutrients for aquatic plants; the biological filter material filter plate 10 that sets up has played filterable effect, has reduced the interior residual nourishment of breed bucket 1 and impurity row aquatic plant and has planted 3 and lead to taking place accumulational possibility in aquatic plant plants 3 in the pond, has improved the purity of discharging the interior aqueous solution of aquatic plant planting 3 ponds, has guaranteed aquatic plant's normal growth.

Referring to fig. 3, in order to reduce the possibility of foreign matter entering the bio-filter bucket 9, the fish-farming symbiotic system further includes a cover plate 12 hinged to the bio-filter bucket 9 at the upper port thereof.

Referring to fig. 1 and 3, in order to increase the content of dissolved oxygen in the water solution discharged into the aquatic plant growing pond 3, the fish and plant symbiotic system further comprises an air blower 13 arranged on one side of the biological filter material barrel 9 and an air inlet pipe 14 arranged between an air outlet of the air blower 13 and the biological filter material barrel 9; the air inlet pipe 14 is positioned between the biological filter material filter plate 10 and the outlet pipe 11 of the biological filter material barrel.

The air blower 13 discharges the outside air into the biological filter material barrel 9 through the air inlet pipe 14, a part of the outside air is dissolved into the water solution to be discharged into the aquatic plant planting pond 3, and the aquatic plants grow better after being cultivated by the water solution with high dissolved oxygen content; the arranged blower 13 improves the content of dissolved oxygen in the water solution discharged into the aquatic plant planting pond 3, thereby promoting the growth of aquatic plants; the air inlet pipe 14 is positioned between the biological filter material filter plate 10 and the biological filter material barrel water outlet pipe 11, so that the possibility that the water solution in the biological filter material barrel 9 flows into the air blower 13 is reduced, and the normal use of the air blower 13 is ensured.

Referring to fig. 1, to further reduce the possibility of the aqueous solution in the bio-filter bucket 9 flowing into the blower 13, the aquaponics system further comprises a back-flow prevention valve 15 mounted on the air inlet pipe 14.

Referring to fig. 1, in order to make the aquatic plants fully absorb the nutrients in the water solution, a water outlet pipe 11 of the biological filter material barrel is positioned below a water return pipe 6; by the design, the water solution drained into the aquatic plant planting pool 3 can stay in the aquatic plant planting pool 3 for a longer time, so that the aquatic plants can absorb nutrients in the water solution more fully.

Referring to fig. 1, in order to allow the aqueous solution in the aquatic plant growing pond 3 to flow back into the cultivating tub 1 more stably and lumpy, the fish and plant symbiotic system further includes a return pump 16 installed on the return pipe 6.

Referring to fig. 1, in order to kill bacteria in the water solution flowing back into the cultivation barrel 1, the fish and plant symbiotic system further comprises a plurality of ultraviolet germicidal lamps 17 installed on the outer peripheral surface of the water return pipe 6, the ultraviolet germicidal lamps 17 are uniformly arranged along the outer peripheral surface of the water return pipe 6, and the water return pipe 6 is made of a transparent material.

Referring to fig. 1, in order to increase the content of dissolved oxygen in the water solution flowing back into the cultivation barrel 1, the fish and plant symbiotic system further comprises an aerator 18 arranged on one side of the ultraviolet germicidal lamp 17, and the air outlet end of the aerator 18 is communicated with the water return pipe 6.

Referring to fig. 1 and 2, in order to facilitate the control of the water amount in the aquatic plant growing pond 3, the fish and plant symbiotic system further comprises a water level sensor 19 arranged in the aquatic plant growing pond 3 and an electromagnetic valve 20 mounted on the water outlet pipe 2, wherein the water level sensor 19 and the electromagnetic valve 20 are both electrically connected with the controller 7; the water level sensor 19 can monitor the height of the water level in the aquatic plant planting pool 3 in real time, and when the water quantity in the aquatic plant planting pool 3 needs to be adjusted, an operator can control the valve body in the electromagnetic valve 20 through the controller 7, so that the on-off of the water outlet pipe 2 is controlled, and the adjustment of the water quantity is further realized; the water level sensor 19 and the electromagnetic valve 20 are arranged to adjust the water amount in the aquatic plant planting pond 3, so that different aquatic plants and the same aquatic plant can be irrigated and cultivated properly in different periods.

Referring to fig. 1, in order to ensure that the fish-plant symbiotic system can still stably operate in case of power failure; the fish and plant symbiotic system is connected with an external power grid; the fish and plant symbiotic system also comprises a standby generator 21 arranged on one side of the controller 7, an ATS automatic change-over switch 22 arranged between the standby generator 21 and the controller 7 and a power supply module 23 arranged on one side of the controller 7; the ATS automatic change-over switch 22 is electrically connected with an external power supply grid and the standby generator 21, the ATS automatic change-over switch 22 is connected with the power module 23, and the power module 23 is connected with the fish and plant symbiotic system.

When the external power network is powered off, the ATS automatic transfer switch 22 is automatically connected with the standby generator 21, so that the electricity generated by the standby generator 21 is transmitted to the power module 23 through the ATS automatic transfer switch 22, the power module 23 supplies power to the fish-planting symbiotic system, and the fish-planting symbiotic system runs in all weather; the ATS automatic change-over switch 22 enables the external power grid and the standby generator 21 to be switched to generate electricity in a seamless mode, and stable operation of the fish and plant symbiotic system is guaranteed.

To sum up, the application process of this application is: the fish is bred and bred in the breeding barrel 1, organic matters such as excrement discharged by the fish and residual nutrients in the breeding barrel 1 flow into the biological filter material barrel 9 along with the water outlet pipe 2, the residual nutrients and impurities are blocked by the biological filter material baffle, and meanwhile, an operator puts nitrobacteria into the biological filter material barrel 9 through the upper port of the biological filter material barrel 9; because the water outlet pipe 11 of the biological filter material barrel is positioned below the biological filter material filter plate 10, the water solution passing through the biological filter material filter plate 10 is discharged into the aquatic plant planting tank 3 through the water outlet pipe 11 of the biological filter material barrel, thereby realizing the purpose of supplying water and nutrients for aquatic plants; along with the increase of the water amount flowing into the aquatic plant planting pond 3, the water in the aquatic plant planting pond 3 flows back into the breeding barrel 1 through the water return pipe 6, and then the purpose of circulating symbiosis is achieved.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

Claims (9)

1. The utility model provides a take fish of plant state detection to plant intergrowth system which characterized in that: the aquatic plant growth monitoring system is characterized by further comprising a controller (7), a display (8) and a plant leaf growth sensor (5) arranged on the aquatic plant leaves, wherein the plant leaf growth sensor (5) is electrically connected with the controller (7), and the controller (7) is electrically connected with the display (8).

2. The fish-plant symbiotic system with plant status detection function according to claim 1, wherein: the aquatic plant cultivation device is characterized by further comprising a cultivation barrel (1), an aquatic plant planting pool (3) arranged on one side of the cultivation barrel (1), a water outlet pipe (2) arranged between the cultivation barrel (1) and the aquatic plant planting pool (3), an electromagnetic valve (20) arranged on the water outlet pipe (2) and a water level sensor (19) arranged in the aquatic plant planting pool (3), wherein the water level sensor (19) and the electromagnetic valve (20) are electrically connected with the controller (7).

3. The fish-plant symbiotic system with plant status detection function according to claim 1, wherein: still including setting up in outlet pipe (2) keep away from the one end of breeding bucket (1) and with biological filter material bucket (9) of outlet pipe (2) intercommunication, set up in biological filter material bucket (9) inside and be located outlet pipe (2) below biological filter material filter plate (10), set up between biological filter material bucket (9) and aquatic plant planting pond (3) and be located biological filter material bucket outlet pipe (11) of biological filter material filter plate (10) below and set up wet return (6) between aquatic plant planting pond (3) and breeding bucket (1), biological filter material filter plate (10) and biological filter material bucket (9) looks adaptation.

4. The fish-plant symbiotic system with plant status detection function according to claim 3, wherein: the biological filter material barrel comprises an air blower (13) arranged on one side of the biological filter material barrel (9) and an air inlet pipe (14) arranged between an air outlet of the air blower (13) and the biological filter material barrel (9), wherein the air inlet pipe (14) is positioned between a biological filter material filter plate (10) and a biological filter material barrel water outlet pipe (11).

5. The fish-plant symbiotic system with plant status detection function according to claim 4, wherein: also comprises a backflow preventing valve (15) arranged on the air inlet pipe (14).

6. The fish-plant symbiotic system with plant status detection function according to claim 3, wherein: also comprises an aerator (18) arranged on the water return pipe (6).

7. The fish-plant symbiotic system with plant status detection function according to claim 3, wherein: also comprises an ultraviolet germicidal lamp (17) arranged on the water return pipe (6).

8. The fish-plant symbiotic system with plant status detection function according to claim 3, wherein: also comprises a water return pump (16) arranged on the water return pipe (6).

9. The fish-plant symbiotic system with plant status detection function according to claim 1, wherein: an external power grid is connected; the system also comprises a standby generator (21), an ATS automatic transfer switch (22) and a power supply module (23) for supplying power to the whole system; the ATS automatic change-over switch (22) is electrically connected with an external power supply grid and the standby generator (21), and the ATS automatic change-over switch (22) is connected with the power supply module (23).

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