CN211510276U - Fish and vegetable symbiotic nitrification balance adjusting system - Google Patents

Abstract

The utility model relates to a fish and vegetable symbiotic nitrification balance adjusting system, which comprises an aquatic pond, a nitrification pond, a cultivation area for cultivating vegetables and a transition pond which are sequentially communicated through a first pipeline to form a circulation loop, wherein water in the transition pond is sequentially sent to the aquatic pond, the nitrification pond, the cultivation area and the transition pond; the transition tank is communicated with the nitrification tank through a second pipeline, and water in the transition tank is delivered to the nitrification tank. The utility model has the advantages that the transition pool is arranged, so that the situation that the treated water which does not reach the standard enters the aquatic area to cause fish death is avoided; the balance of the adjusting system is controlled through the single chip microcomputer, the operation is accurate, and manual operation errors are avoided.

Description

Fish and vegetable symbiotic nitrification balance adjusting system

Technical Field

The utility model relates to a intergrowth technical field, concretely relates to balanced governing system is nitrified in fish-vegetable intergrowth.

Background

The fish and vegetable symbiosis is a novel composite cultivation system, two originally completely different farming techniques of aquaculture and hydroponic cultivation are adopted, and scientific synergistic symbiosis is achieved through ingenious ecological design, so that the ecological symbiosis effect that water is not changed during fish cultivation, water is not worried about, and plants are not fertilized to normally grow is realized.

In the prior art, the fish and vegetable symbiotic water treatment device is formed by connecting mutually independent precipitation equipment, physical filtration equipment, nitrification equipment and mineralization equipment through pipelines. However, the existing fish and vegetable symbiotic water treatment device has the following problems: the residual water of the aquatic products can not be ensured to completely reach the standard after passing through the water treatment system.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a balanced governing system is nitrified in fish-vegetable intergrowth, aim at solving above-mentioned technical problem.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

a fish and vegetable symbiotic nitrification balance adjusting system comprises an aquatic pond, a nitrification pond, a cultivation area for cultivating vegetables and a transition pond which are sequentially communicated through a first pipeline to form a circulation loop, wherein water in the transition pond is sequentially sent to the aquatic pond, the nitrification pond, the cultivation area and the transition pond; the transition tank is communicated with the nitrification tank through a second pipeline, and water in the transition tank is delivered to the nitrification tank.

The utility model has the advantages that: in the process of fish and vegetable cultivation, the nitrification balance between the aquatic pond and the cultivation area is adjusted through the transition pond filled with water, so that the water in the aquatic pond and the cultivation area completely reaches the standard, and the normal growth of fish and vegetables is ensured.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

The water inlet end of each first pipeline is connected with a first water pump, and the first water pumps are connected with the single chip microcomputer through lines.

The beneficial effects of adopting above-mentioned further scheme are that through a single chip microcomputer control water pump delivery water, accurate control, degree of automation is high, labour saving and time saving.

Furthermore, the water inlet end of the second pipeline is connected with a second water pump, and the second water pump is connected with the single chip microcomputer through a circuit.

The beneficial effects of adopting above-mentioned further scheme are that through the water pump of single chip microcomputer control two in with the transition pond water that does not reach standard send to the pond of nitrifying and nitrify and handle, ensure that the water in aquatic products pond and the cultivation district is all up to standard, guarantee the normal growth of fish dish.

Further, a second nitrite sensor is installed in the transition tank and connected with the single chip microcomputer through a circuit; the second nitrite sensor detects the content of nitrite in the transition tank and sends corresponding information to the single chip microcomputer, and the single chip microcomputer receives corresponding information processing analysis and controls the second water pump to send water in the transition tank to the nitrification tank according to an analysis result.

The beneficial effects of adopting above-mentioned further scheme are that fish and vegetable aquaculture in-process, the content of nitrite in the excessive pond of nitrite sensor two detection, and give the singlechip with the information transmission that corresponds, the singlechip receives the information processing analysis that corresponds, and according to analysis result control water pump two will pass through the water in the pond and deliver to nitrify in the pond, accurate control, it exceeds standard to avoid the nitrite content of aquatic products pond aquatic products in water, ensure that the water that the pond of passing through sent into the aquatic products pond is up to standard, guarantee the normal growth of fish.

Further, an ammonia nitrogen sensor II is installed in the transition tank and connected with the single chip microcomputer through a line; and the ammonia nitrogen sensor II detects the content of ammonia nitrogen in the transition tank and sends corresponding information to the single chip microcomputer, and the single chip microcomputer receives corresponding information processing analysis and controls the water pump II to send water in the transition tank to the nitrification tank according to an analysis result.

The beneficial effects of adopting above-mentioned further scheme are that fish and vegetable breeding in-process, the content of ammonia nitrogen in the transition pond is detected to ammonia nitrogen sensor two to give the singlechip with corresponding information routing, the singlechip receives the information processing analysis that corresponds, and according to analysis result control water pump two will pass through the water in the pond and deliver to nitrify in the pond, accurate control, the ammonia nitrogen content of avoiding aquatic in the aquatic products pond exceeds standard, ensure that the water that the pond sent into the aquatic products pond of passing through is up to standard, guarantee the normal growth of fish.

Furthermore, a plurality of nitrite sensors I for detecting the content of nitrite in the aquatic pond are uniformly installed in the aquatic pond at intervals, and the nitrite sensors I are respectively connected with the single chip microcomputer through lines; the first nitrite sensor detects the content of nitrite in the aquatic pond and sends corresponding information to the single chip microcomputer, and the single chip microcomputer receives corresponding information processing analysis and controls the corresponding first water pump to deliver water in the aquatic pond to the nitrification pond according to an analysis result.

Adopt above-mentioned further scheme's beneficial effect be the fish dish farming in-process, detect the content of nitrite in the aquatic products pond simultaneously through a plurality of nitrite sensor one, and give the singlechip with the information transmission that corresponds, the singlechip receives the information processing analysis that corresponds, and according to the water pump one that analysis result control corresponds in with the aquatic products pond deliver to nitrify in the pond, accurate control, with two cooperations of nitrite sensor in the transition pond, avoid the content of aquatic products pond aquatic products nitrite to exceed standard, ensure that the water that the transition pond sent into in the aquatic products pond is up to standard, guarantee the fish normal growth.

Further, a plurality of ammonia nitrogen sensors I for detecting the content of ammonia nitrogen in the aquatic pond are uniformly installed in the aquatic pond at intervals, and the ammonia nitrogen sensors I are respectively connected with the single chip microcomputer through lines; the first ammonia nitrogen sensor detects the content of ammonia nitrogen in the aquatic pond and sends corresponding information to the single chip microcomputer, the single chip microcomputer receives corresponding information processing and analysis, and the corresponding first water pump is controlled to deliver water in the aquatic pond to the nitrification pond according to an analysis result.

The beneficial effects of adopting above-mentioned further scheme are that the fish dish farming in-process, detect the content of ammonia nitrogen in the aquatic products pond through a plurality of ammonia nitrogen sensor one, and give the singlechip with the information transmission that corresponds, the singlechip receives the information processing analysis that corresponds, and according to the water pump one that analysis result control corresponds and deliver to nitrify in the pond with water in the aquatic products pond, accurate control, with the cooperation of the two ammonia nitrogen sensors in the transition pond, avoid the content of aquatic ammonia nitrogen in the aquatic products pond to exceed standard, ensure that the water that the transition pond sent into in the aquatic products pond is up to standard, guarantee the normal growth of fish.

Furthermore, the aquatic product pond, nitrify the pond, cultivate the district with all install the level gauge in the transition pond, it is a plurality of the level gauge respectively through the circuit with the singlechip is connected.

Adopt the beneficial effect of above-mentioned further scheme to detect the water level in aquatic products pond, nitrify pond, cultivation district and the transition pond respectively through a plurality of level gauges, avoid the water to overflow.

Further, the transition tank is communicated with a water supplementing device through a third pipeline, a third water pump is mounted on the third pipeline, and the third water pump is connected with the single chip microcomputer through a line; the corresponding liquid level meter detects the water level in the transition tank and sends corresponding water level information to the single chip microcomputer, and the single chip microcomputer receives the corresponding water level information, processes and analyzes the water level information, and controls the water pump III to replenish water according to an analysis structure.

The beneficial effect who adopts above-mentioned further scheme is that the level gauge that corresponds detects the water level in the transition pond to give the singlechip with corresponding water level information transmission, the singlechip receives corresponding water level information processing analysis, and in time carry out the moisturizing according to analysis structure control water pump three, ensure entire system's balance.

Further, the nitrification tank comprises an upper cavity used for nitrification and a lower cavity used for storing nitrified water, the upper cavity is communicated with the transition tank and the aquatic product tank through the second pipeline and the corresponding first pipeline respectively, and the lower cavity is communicated with the cultivation area through the corresponding first pipeline.

The further scheme has the beneficial effects of simple and special structure and convenience for nitration treatment.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the system comprises a first pipeline, a second pipeline, an aquatic product pool, a first pipeline, a second pipeline, a third pipeline, a fourth pipeline, a fifth pipeline, a sixth pipeline, a fifth pipeline, a sixth pipeline, a.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, the utility model provides a fish and vegetable symbiotic nitrification balance adjusting system, which comprises an aquatic pond 2, a nitrification pond 3, a cultivation area 4 for cultivating vegetables and a transition pond 5 which are sequentially communicated through a first pipeline 1 to form a circulation loop, wherein water in the transition pond 5 is sequentially sent to the aquatic pond 2, the nitrification pond 3, the cultivation area 4 and the transition pond 5; the transition tank 5 is communicated with the nitrification tank 3 through a second pipeline 6, and water in the transition tank 5 is delivered to the nitrification tank 3. In the process of fish and vegetable cultivation, the nitrification balance between the aquatic product pool 2 and the cultivation area 4 is adjusted through the matching of the transition pool 5 filled with water and the nitrification pool 3, so that the water in the aquatic product pool and the cultivation area 4 completely reaches the standard, and the normal growth of fish and vegetables is ensured.

Example 1

On the basis of above-mentioned structure, this embodiment still includes the singlechip, and every first pipeline 1's the end of intaking all is connected with water pump 7, and a plurality of water pumps 7 are connected with the singlechip through the circuit respectively. The in-process that fish dish was bred, through 7 delivery waters of single chip microcomputer control water pump, accurate control, degree of automation is high, labour saving and time saving.

Example 2

On the basis of embodiment one, in this embodiment, the end of intaking of second pipeline 6 is connected with second water pump 8, and second water pump 8 passes through the circuit and is connected with the singlechip. In the process of fish and vegetable cultivation, the water which does not reach the standard in the transition pool 5 is sent to the nitrification pool 3 for nitrification treatment by controlling the water pump II 8 through the single chip microcomputer, so that the water in the aquatic product pool and the water in the cultivation area 4 reach the standard, and the normal growth of the fish and vegetable is ensured.

Example 3

On the basis of the second embodiment, in the present embodiment, a second nitrite sensor 9 is installed in the transition tank 5 in a manner that can be thought by those skilled in the art, and the second nitrite sensor 9 is connected with the single chip microcomputer through a line; the second nitrite sensor 9 detects the content of nitrite in the transition tank 5, sends corresponding information to the single chip microcomputer, and the single chip microcomputer receives corresponding information processing analysis and controls the second water pump 8 to send water in the transition tank 5 into the nitrification tank 3 according to an analysis result. In the fish and vegetable culture process, the content of nitrite in the excessive pond 5 is detected to two 9 nitrite sensors, and give the singlechip with the information transmission that corresponds, the singlechip receives the information processing analysis that corresponds, and according to the water of two 8 control water pumps of analysis result in will passing through the pond 5 and deliver to nitrify in the pond 3, accurate control, it exceeds standard to avoid the nitrite content of aquatic products pond 2 aquatic products pond, ensure that the water that passes through in the pond 5 sends into the aquatic products pond 2 is up to standard, guarantee the normal growth of fish.

Example 4

On the basis of the second embodiment, in the present embodiment, a second ammonia nitrogen sensor 10 is installed in the transition tank 5 in a manner that can be thought by those skilled in the art, and the second ammonia nitrogen sensor 10 is connected with the single chip microcomputer through a line; and the ammonia nitrogen sensor II 10 detects the content of ammonia nitrogen in the transition tank 5 and sends corresponding information to the single chip microcomputer, and the single chip microcomputer receives corresponding information for processing and analysis and controls the water pump II 8 to send water in the transition tank 5 to the nitrification tank 3 according to an analysis result. In the fish and vegetable culture process, the ammonia nitrogen sensor II 10 detects the content of ammonia nitrogen in the transition pond, and send corresponding information for the singlechip, the singlechip receives corresponding information processing analysis, and according to the analysis result control water pump II 8 will pass through the water in the pond 5 and deliver to nitrify in the pond 3, accurate control, it exceeds standard to avoid the ammonia nitrogen content of aquatic products in the pond 2, ensure that the water that passes through in the pond 5 and send into the aquatic products in the pond 2 is up to standard, guarantee the normal growth of fish.

Example 5

On the basis of the first embodiment, in the embodiment, a plurality of nitrite sensors (11) for detecting the content of nitrite in the aquatic pond 2 are uniformly installed at intervals in a manner that can be thought by a person skilled in the art, and the plurality of nitrite sensors (11) are respectively connected with a single chip microcomputer through lines; the nitrite sensor I11 detects the content of nitrite in the aquatic product pool 2, sends corresponding information to the single chip microcomputer, and the single chip microcomputer receives corresponding information processing analysis and controls the corresponding water pump I7 to send water in the aquatic product pool 2 to the nitrification pool 3 according to an analysis result. In the fish dish farming process, detect the content of nitrite in 2 aquatic products ponds simultaneously through a plurality of nitrite sensor 11, and give the singlechip with the information transmission that corresponds, the singlechip receives the information processing analysis that corresponds, and water in 2 aquatic products ponds is delivered to nitrifying pond 3 according to water pump 7 that analysis result control corresponds, accurate control, cooperate with two 9 of nitrite sensor in the transition pond 5, avoid 2 aquatic products ponds in the content of nitrite to exceed standard, ensure that the water that transition pond 5 sent into 2 aquatic products ponds is up to standard, guarantee the normal growth of fish.

Example 6

On the basis of the first embodiment, in the embodiment, a plurality of ammonia nitrogen sensors (12) for detecting the content of ammonia nitrogen in the aquatic pond 2 are uniformly installed at intervals in a manner that can be thought by a person skilled in the art, and the plurality of ammonia nitrogen sensors (12) are respectively connected with a single chip microcomputer through lines; the ammonia nitrogen sensor I12 detects the content of ammonia nitrogen in the aquatic pond and sends corresponding information to the single chip microcomputer, the single chip microcomputer receives corresponding information processing and analysis, and the corresponding water pump I7 is controlled according to analysis results to send water in the aquatic pond 2 to the nitrification pond 3. In the fish dish farming process, detect the content of ammonia nitrogen in the aquatic products pond 2 through a plurality of ammonia nitrogen sensors 12, and give the singlechip with the information transmission that corresponds, the singlechip receives the information processing analysis that corresponds, and water in the aquatic products pond 2 is delivered to nitrify in the pond 3 according to water pump 7 that analysis result control corresponds, accurate control, with two 10 cooperations of ammonia nitrogen sensor in the transition pond 5, avoid the content of aquatic ammonia nitrogen to exceed standard in the aquatic products pond 2, ensure that the water that the transition pond 5 sent into in the aquatic products pond 2 is up to standard, guarantee the normal growth of fish.

Example 7

On the basis of the structure, in the embodiment, the liquid level meters are installed in the aquatic product pool 2, the nitrification pool 3, the cultivation area 4 and the transition pool 5 in a mode which can be thought by a person skilled in the art, and the liquid level meters are respectively connected with the single chip microcomputer through lines. In the process of fish and vegetable cultivation, the water levels in the aquatic product pool 2, the nitrification pool 3, the cultivation area 4 and the transition pool 5 are respectively detected through a plurality of liquid level meters, so that water overflow is avoided, and the balance of the water level of the whole system is ensured.

Example 8

On the basis of the seventh embodiment, in the present embodiment, the transition tank 5 is communicated with the water replenishing device 13 through a third pipeline, and the water replenishing device 13 preferably adopts a water replenishing tank; a third water pump 14 is installed on the third pipeline, and the third water pump 14 is connected with the single chip microcomputer through a circuit; the corresponding liquid level meter detects the water level in the transition pool 5 and sends corresponding water level information to the single chip microcomputer, and the single chip microcomputer receives the corresponding water level information, processes and analyzes the water level information, and controls the third water pump 14 to supplement water according to the analysis structure. In the process of fish and vegetable cultivation, part of water in the whole system is lost, the corresponding liquid level meter in the process detects the water level in the transition pool 5, corresponding water level information is sent to the single chip microcomputer, the single chip microcomputer receives the corresponding water level information, processes and analyzes the water level information, the water pump III 14 is controlled according to the analysis structure to timely replenish water, balance of the whole system is guaranteed, and meanwhile water overflow in each area is avoided.

Example 9

On the basis of the structure, in the embodiment, the nitrification tank 3 comprises an upper cavity for nitrification and a lower cavity for storing nitrified water, the upper cavity is communicated with the transition tank 5 and the aquatic product tank 2 through the second pipeline 6 and the corresponding first pipeline 1 respectively, and the lower cavity is communicated with the cultivation area 4 through the corresponding first pipeline 1, so that the structure is simple and special, and the nitrification treatment is convenient. The upper cavity is internally provided with a nitrification layer, and water sent from the aquatic tank 2 or the transition tank 5 directly flows downwards and is stored in the lower cavity after being nitrified by the nitrification layer.

In addition, the bottom of the upper cavity is provided with an opening, the opening is connected with a siphon 15, and the upper end of the siphon 15 extends upwards but does not extend out of the upper cavity. When the water level in the upper cavity reaches the set height, water can directly flow from the siphon tube 15 to the lower cavity, and the water in the upper cavity is prevented from overflowing.

The utility model discloses a theory of operation power as follows:

the method comprises the steps that the contents of nitrite and ammonia nitrogen in an aquatic pond 2 are detected simultaneously through a plurality of nitrite sensors I11 and a plurality of ammonia nitrogen sensors I12, corresponding information is sent to a single chip microcomputer, the single chip microcomputer receives the corresponding information and carries out contrastive analysis, when the contents of the nitrite and/or the ammonia nitrogen in the aquatic pond 2 exceed a set nitrite threshold value (0.2mg/L) and an ammonia nitrogen threshold value (0.2mg/L) respectively, the single chip microcomputer controls a corresponding water pump I7 to send a proper volume of water in the aquatic pond 2 to a nitrification pond 3 for nitrification, then the corresponding water pump I7 sends a proper amount of nitrified water to a cultivation area 4, the corresponding water pump I7 sends a proper amount of water in the cultivation area 4 to a transition pond 5, and the corresponding water pump I7 sends a proper amount of water in the transition pond 5 to the aquatic pond 2, and the whole system is guaranteed to be balanced.

The contents of nitrite and ammonia nitrogen in the water in the transition pool 5 are detected through a second nitrite sensor 9 and a second ammonia nitrogen sensor 10, corresponding information is sent to the single chip microcomputer, the single chip microcomputer receives the corresponding information and carries out contrastive analysis, when the fact that the contents of the nitrite and/or the ammonia nitrogen in the water in the transition pool 5 are respectively higher than a set nitrite threshold value (0.2mg/L) and an ammonia nitrogen threshold value (0.2mg/L) after the water in the transition pool 2 is sent into the aquatic pool 2 is obtained through analysis, the single chip microcomputer controls a second water pump 8 to send the water in the transition pool 5 into the nitrification pool 3 for nitrification, meanwhile, a corresponding first water pump 7 sends a proper amount of nitrified water into the cultivation area 4, and a corresponding first water pump 7 sends a proper amount of water in the cultivation area 4 into the transition pool 5, and the balance of the whole system is guaranteed.

It should be noted that, the utility model relates to an all water pumps (model MP-40R), ammonia nitrogen sensor (model LN-ISAD), nitrite sensor (model MIK) and level gauge (model EL-P260) all adopt prior art to above-mentioned each part is connected with singlechip (model TC-SCR) electricity, and the control circuit between singlechip and each part is prior art.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a fish and vegetable symbiotic nitrification balance adjustment system which characterized in that: the device comprises an aquatic product pool (2), a nitrification pool (3), a cultivation area (4) for cultivating vegetables and a transition pool (5) which are sequentially communicated through a first pipeline (1) to form a circulation loop, wherein water in the transition pool (5) is sequentially sent to the aquatic product pool (2), the nitrification pool (3), the cultivation area (4) and the transition pool (5); the transition tank (5) is communicated with the nitrification tank (3) through a second pipeline (6), and water in the transition tank (5) is conveyed to the nitrification tank (3).

2. The fish-vegetable symbiotic nitrification balance regulating system according to claim 1, characterized in that: the water inlet end of each first pipeline (1) is connected with a first water pump (7), and the first water pumps (7) are connected with the single chip microcomputer through lines.

3. The fish-vegetable symbiotic nitrification balance regulating system according to claim 2, characterized in that: the water inlet end of the second pipeline (6) is connected with a second water pump (8), and the second water pump (8) is connected with the single chip microcomputer through a circuit.

4. The fish-vegetable symbiotic nitrification balance regulating system according to claim 3, wherein: install nitrite sensor two (9) in transition pond (5), nitrite sensor two (9) pass through the circuit with the singlechip is connected.

5. The fish-vegetable symbiotic nitrification balance regulating system according to claim 3, wherein: and a second ammonia nitrogen sensor (10) is installed in the transition tank (5), and the second ammonia nitrogen sensor (10) is connected with the single chip microcomputer through a circuit.

6. The fish-vegetable symbiotic nitrification balance regulating system according to claim 2, characterized in that: a plurality of nitrite sensors (11) used for detecting the content of nitrite in the aquatic product pool (2) are installed at uniform intervals in the aquatic product pool, and the nitrite sensors (11) are connected with the single chip microcomputer through lines respectively.

7. The fish-vegetable symbiotic nitrification balance regulating system according to claim 2, characterized in that: a plurality of ammonia nitrogen sensors (12) for detecting ammonia nitrogen content in the aquatic product pool (2) are installed at uniform intervals, and the plurality of ammonia nitrogen sensors (12) are respectively connected with the single chip microcomputer through lines.

8. The fish-vegetable symbiotic nitrification balance regulating system according to any one of claims 2 to 7, wherein: the aquatic product pond (2), nitrify pond (3), cultivate district (4) and all install the level gauge in transition pond (5), it is a plurality of the level gauge respectively through the circuit with the singlechip is connected.

9. The fish-vegetable symbiotic nitrification balance regulating system according to claim 8, wherein: the transition pool (5) is communicated with the water supplementing device (13) through a third pipeline, a third water pump (14) is installed on the third pipeline, and the third water pump (14) is connected with the single chip microcomputer through a circuit.

10. The fish-vegetable symbiotic nitrification balance regulating system according to any one of claims 1 to 7, wherein: nitrify pond (3) including being used for nitrifying last cavity and the lower cavity that is used for storing the water after nitrifying, go up the cavity and pass through respectively second pipeline (6) and corresponding first pipeline (1) with transition pond (5) with aquatic products pond (2) intercommunication, down the cavity through corresponding first pipeline (1) with cultivation district (4) intercommunication.

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