CN216351928U - Intelligent control system applied to circulating water aquaculture equipment - Google Patents

Abstract

The utility model relates to an intelligent control system applied to circulating water aquaculture equipment, which comprises human-computer interface equipment, data acquisition equipment, a water quality sensor, a communication cable and Internet of things gateway equipment, wherein the human-computer interface equipment is connected with the data acquisition equipment; the human-computer interface equipment is connected with the data acquisition equipment, the water quality sensor and the Internet of things gateway equipment through communication cables; the water quality sensor is arranged in a culture pond of the circulating water culture equipment and is used for collecting water quality parameters of culture water, so that the running of the water quality of the circulating water is monitored and transmitted to the human-computer interface equipment through the communication cable; data acquisition equipment gathers recirculating water aquaculture equipment's operating parameter to transmit operating parameter for the high in the clouds through thing allies oneself with gateway equipment, thereby operation management equipment's operation on cell-phone APP and local human-computer interface, make aquaculture's operation more convenient, promoted aquaculture's degree of automation, improve equipment operation transparency, be favorable to realizing extensive aquaculture and promote aquaculture output.

Description

Intelligent control system applied to circulating water aquaculture equipment

Technical Field

The utility model relates to the technical field of automation, in particular to an intelligent control system applied to circulating water aquaculture equipment.

Background

With the development of science and technology, various industries are developed towards automation. The aquaculture industry is no exception, and in large-scale aquaculture, automation technology is required to improve the culture efficiency and the culture yield. At present, in the aquaculture process, a circulating water aquaculture device is generally used for realizing automation. However, only the circulating water aquaculture equipment is used for aquaculture, the automation degree of the aquaculture industry is still not high, the equipment operation transparency is low, and the operation, management and maintenance convenience degree is not high.

SUMMERY OF THE UTILITY MODEL

On the basis, the problem that the traditional aquaculture automation degree is not high is necessarily solved, and on one hand, the embodiment of the application provides an intelligent control system applied to circulating water aquaculture equipment, which comprises human-computer interface equipment, data acquisition equipment, a water quality sensor and a communication cable; the communication cable is an RS485 communication cable and an Ethernet communication cable;

the human-computer interface equipment is connected with the water quality sensor through a communication cable and establishes connection with the data acquisition equipment through industrial Ethernet communication to exchange data;

the data acquisition equipment acquires the operating parameters of the circulating water culture equipment and transmits the operating parameters to the human-computer interface equipment;

the water quality sensor is arranged in the culture water of the circulating water culture equipment, collects water quality parameters of the culture water and transmits the water quality parameters to the human-computer interface equipment through the data acquisition equipment.

Optionally, the system further comprises an internet of things gateway device;

and the Internet of things gateway equipment is respectively connected with the human-computer interface equipment and the data acquisition equipment.

Optionally, the system further comprises a mobile terminal; the mobile terminal is in wireless connection with the Internet of things gateway device.

Optionally, the system further comprises a cloud server; the cloud server is in wireless connection with the Internet of things gateway device.

Optionally, the system further comprises a switch device; the human-computer interface equipment is connected with the switch equipment through a communication cable; the data acquisition equipment is connected with the switch equipment through a communication cable.

Optionally, the data acquisition device includes a PLC device; the PLC equipment is connected with the human-computer interface equipment through a communication cable; the PLC equipment is connected with the water quality sensor through a communication cable.

Optionally, the water quality sensor comprises a temperature sensor, a PH sensor and an ORP sensor;

the temperature sensor, the PH sensor and the ORP sensor are respectively connected with the data acquisition equipment;

the temperature sensor, the PH sensor and the ORP sensor are respectively arranged in the culture water of the circulating water culture equipment.

Optionally, the water quality sensor further comprises a water level sensor, a dissolved oxygen sensor and an ammonia nitrogen sensor;

the water level sensor, the dissolved oxygen sensor and the ammonia nitrogen sensor are respectively connected with data acquisition equipment;

the water level sensor, the dissolved oxygen sensor and the ammonia nitrogen sensor are respectively arranged in the culture water of the circulating water culture equipment.

On the other hand, the embodiment of the application provides a circulating water culture device, which comprises a circulating water culture device and the intelligent control system applied to the circulating water culture device;

the data acquisition equipment of the intelligent control system is connected with the circulating water culture equipment and used for acquiring the operating parameters of the circulating water culture equipment;

the water quality sensor of the intelligent control system is arranged in the culture water of the circulating water culture equipment.

Optionally, the recirculating aquaculture device comprises a culture pond, a micro-filter, an adjusting tank, a water pump, a gas reactor, a nitration reactor, an ultraviolet sterilization device and a fan;

the culture pond, the micro-filter, the regulating pond, the gas reactor, the nitration reactor and the ultraviolet sterilization device are sequentially communicated in an ending way;

the water pump is arranged in the culture water of the regulating tank and is respectively communicated with the gas reactor and the nitration reactor; the blower respectively delivers oxygen to the gas reactor and the nitration reactor;

the data acquisition equipment is respectively connected with the micro-filter, the water pump and the fan; the water quality sensor is arranged in the culture water of the adjusting tank.

One of the above technical solutions has the following advantages and beneficial effects:

the intelligent control system applied to the circulating water aquaculture equipment comprises human-computer interface equipment, data acquisition equipment and a water quality sensor, wherein the human-computer interface equipment is connected with the data acquisition equipment through a communication cable; the data acquisition equipment is connected with the water quality sensor through a communication cable, wherein the data acquisition equipment acquires the operating parameters of the circulating water aquaculture equipment and transmits the operating parameters to the human-computer interface equipment; the water quality sensor is arranged in the aquaculture water of the circulating water aquaculture equipment, collects water quality parameters of the aquaculture water, and transmits the water quality parameters to the human-computer interface equipment through the data acquisition equipment, so that the running of the circulating water aquaculture equipment is monitored, the operation of aquaculture is more convenient, the automation degree of aquaculture is improved, the running transparency of the equipment is improved, and the realization of large-scale aquaculture and the improvement of aquaculture yield are facilitated.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular description of preferred embodiments of the application, as illustrated in the accompanying drawings. Like reference numerals refer to like parts throughout the drawings, and the drawings are not intended to be drawn to scale in actual dimensions, emphasis instead being placed upon illustrating the subject matter of the present application.

Fig. 1 is a schematic view of a first structure of an intelligent control system applied to a recirculating aquaculture apparatus in an embodiment of the present application.

Fig. 2 is a schematic diagram of a second structure of the intelligent control system applied to the recirculating aquaculture apparatus in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a recirculating aquaculture apparatus in an embodiment of the present application.

Description of reference numerals:

11. a human-machine interface device; 13. a data acquisition device; 15. a water quality sensor; 17. a communication cable; 19. an Internet of things gateway device; 21. a mobile terminal; 23. a cloud server; 31. a culture pond; 32. a micro-filter; 33. a regulating tank; 34. a water pump; 35. a gas reactor; 36. a nitration reactor; 37. an ultraviolet sterilization device; 38. a fan.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are shown in the drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element and be integral therewith, or intervening elements may also be present. The terms "disposed," "one end," "the other end," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In order to solve the problems that the automation degree of the aquaculture industry is still not high, the equipment operation transparency is low, and the operation, management and maintenance convenience degree is not high, as shown in fig. 1, an intelligent control system applied to circulating water aquaculture equipment is provided, and comprises a human-computer interface device 11, a data acquisition device 13, a water quality sensor 15 and a communication cable 17.

It should be noted that the recirculating aquaculture apparatus is an automatic aquaculture apparatus, which provides a novel aquaculture mode, and the wastewater generated in the aquaculture pond 31 is treated by a series of water treatment units and then recycled. The recirculating aquaculture device can remove harmful pollutants such as residual bait, excrement, ammonia nitrogen, nitrite nitrogen and the like in the aquaculture water body. The circulating water culture equipment is used for purifying the culture environment, and the purified water body is input into the culture pond 31 again by utilizing the treatments of physical filtration, biological filtration, carbon dioxide removal, disinfection, oxygenation, temperature regulation and the like. Illustratively, the circulating water aquaculture device comprises a culture pond 31, a micro-filter 32, a regulating pond 33, a water pump 34, a gas reactor 35, a nitration reactor 36, an ultraviolet sterilization device 37 and a fan 38; the culture pond 31, the micro-filter 32, the regulating pond 33, the gas reactor 35, the nitration reactor 36 and the ultraviolet sterilization device 37 are sequentially communicated in an ending way; the water pump 34 is arranged in the culture water of the regulating tank 33 and is respectively communicated with the gas reactor 35 and the nitration reactor 36; a fan 38 delivers oxygen to the gas reactor 35 and the nitrification reactor 36, respectively.

The intelligent control system is used for monitoring the running condition of the circulating water aquaculture equipment. Specifically, the human-computer interface device 11 is connected with the data acquisition device 13 through a communication cable 17; the data acquisition equipment 13 is connected with the water quality sensor 15 through a communication cable 17. It should be noted that the human-machine interface device 11 may display and collect the operation parameters and the water quality parameters of the recirculating aquaculture apparatus to a user through a display screen thereon, and the operation parameters are, for example, the operation parameters of the micro-filter 32, the water pump 34 and the fan 38 in the recirculating aquaculture apparatus, including parameters such as current and voltage. The water quality parameters are parameters of culture water in a regulating tank 33 in the circulating water culture equipment, and comprise parameters of water level, oxygen concentration, carbon dioxide concentration, temperature, ammonia nitrogen concentration, nitrite nitrogen concentration and the like. The human-machine interface device 11 can also receive an operation instruction of a user to control the operation of the intelligent control system. It should be noted that the communication cable 17 is a cable for implementing signal transmission between devices, but other types of cables may also be used to implement connection between devices, and this is not particularly limited. In one example, the communication cables are an RS485 communication cable and an ethernet communication cable.

The data acquisition equipment 13 is used for acquiring the operation parameters of the recirculating aquaculture equipment, transmitting the operation parameters to the human-computer interface equipment 11, and displaying the operation parameters to a user through the human-computer interface equipment 11. Illustratively, the data acquisition device 13 is connected to the micro-filter 32, the water pump 34 and the fan 38 in the recirculating aquaculture apparatus to acquire the operating parameters of the micro-filter 32, the water pump 34 and the fan 38 in the recirculating aquaculture apparatus, including current, voltage and the like. The data acquisition device 13 may select a feasible device according to actual needs, and in an example, the data acquisition device 13 includes a PLC (Programmable Logic Controller) device; the PLC equipment is connected with the human-computer interface equipment 11 through a communication cable 17; the PLC equipment is connected with the water quality sensor 15 through a communication cable 17.

The water quality sensor 15 is arranged in the culture water of the circulating water culture equipment and used for collecting water quality parameters of the culture water and transmitting the water quality parameters to the human-computer interface equipment 11 through the data collecting equipment 13. Illustratively, the water quality sensor 15 includes a temperature sensor, a PH (Potential Of Hydrogen) sensor, and an ORP (oxidation reduction Potential) sensor; the temperature sensor, the PH sensor and the ORP sensor are respectively connected with the data acquisition equipment 13; the temperature sensor, the PH sensor and the ORP sensor are respectively arranged in the culture water of the circulating water culture equipment, wherein the temperature sensor is used for detecting the temperature of the culture water, the PH sensor is used for detecting the pH value of the culture water, and the ORP sensor is used for detecting the oxidation-reduction potential value of the culture water. In order to better monitor the water quality, the water quality sensor 15 further comprises a water level sensor, a dissolved oxygen sensor and an ammonia nitrogen sensor; the water level sensor, the dissolved oxygen sensor and the ammonia nitrogen sensor are respectively connected with the data acquisition equipment 13; the water level sensor, the dissolved oxygen sensor and the ammonia nitrogen sensor are respectively arranged in the culture water of the circulating water culture equipment, wherein the water level sensor is used for detecting the water level of the culture water, the dissolved oxygen sensor is used for detecting the oxygen content of the culture water, and the ammonia nitrogen sensor is used for detecting the ammonia nitrogen content of the culture water.

The intelligent control system for the circulating water culture equipment can realize local monitoring and remote monitoring, and therefore, as shown in fig. 2, the intelligent control system for the circulating water culture equipment further comprises an internet of things gateway device 19; the internet of things gateway device 19 is respectively connected with the human-computer interface device 11 and the data acquisition device 13. The internet of things gateway device 19 is connected with the human-computer interface device 11, the internet of things gateway device 19 can transmit data sent by the human-computer interface device 11 to a far end, for example, the intelligent control system further comprises a mobile terminal 21, the mobile terminal 21 is wirelessly connected with the internet of things gateway device 19, receives the data sent by the internet of things gateway device 19, and can also utilize the mobile terminal 21 to operate and control the intelligent control system. In one example, the mobile terminal 21 is a smartphone, a tablet computer, or the like. The intelligent control system further comprises a cloud server 23, the cloud server 23 is in wireless connection with the internet of things gateway device 19, and receives data sent by the internet of things gateway device 19.

The intelligent control system applied to the circulating water culture equipment is more convenient to assemble. The intelligent control system further comprises switch equipment; the human-computer interface equipment 11 is connected with the switch equipment through a communication cable 17; the data acquisition device 13 is connected with the switch device through the communication cable 17, that is, the switch device is used as a connection for connecting the human-machine interface device 11, the data acquisition device 13, the internet of things gateway device 19 and other devices.

The intelligent control system is applied to various embodiments of an intelligent control system of circulating water aquaculture equipment, and comprises a human-computer interface device 11, a data acquisition device 13 and a water quality sensor 15, wherein the human-computer interface device 11 is connected with the data acquisition device 13 through a communication cable 17; the data acquisition equipment 13 is connected with the water quality sensor 15 through a communication cable 17, wherein the data acquisition equipment 13 acquires the operation parameters of the circulating water culture equipment and transmits the operation parameters to the human-computer interface equipment 11; the water quality sensor 15 is arranged in the aquaculture water of the circulating water aquaculture equipment, collects water quality parameters of the aquaculture water, and transmits the water quality parameters to the human-computer interface equipment 11 through the data acquisition equipment 13, so that the running of the circulating water aquaculture equipment is monitored, the operation of aquaculture is more convenient, the automation degree of aquaculture is improved, the running transparency of the equipment is improved, and the large-scale aquaculture and the aquaculture yield are favorably realized.

Correspondingly, as shown in the figure, a circulating water culture device is also provided, which comprises a circulating water culture device and the intelligent control system applied to the circulating water culture device;

the data acquisition equipment 13 of the intelligent control system is connected with the circulating water culture equipment and used for acquiring the operating parameters of the circulating water culture equipment; the water quality sensor 15 of the intelligent control system is arranged in the culture water of the circulating water culture equipment.

It should be noted that the intelligent control system applied to the recirculating aquaculture apparatus in this embodiment is the same as the intelligent control system applied to the recirculating aquaculture apparatus in the foregoing embodiment, and please refer to the foregoing embodiment for details, which is not described herein again.

Illustratively, as shown in fig. 3, the recirculating aquaculture apparatus includes a culture pond 31, a micro-filter 32, a regulating pond 33, a water pump 34, a gas reactor 35, a nitrification reactor 36, an ultraviolet sterilization device 37 and a fan 38.

The culture pond 31, the micro-filter 32, the regulating pond 33, the gas reactor 35, the nitration reactor 36 and the ultraviolet sterilization device 37 are sequentially communicated in an ending way to form a circulating culture water circulation channel.

The water pump 34 is arranged in the culture water of the regulating tank 33 and is respectively communicated with the gas reactor 35 and the nitration reactor 36; a fan 38 delivers oxygen to the gas reactor 35 and the nitrification reactor 36, respectively.

The data acquisition equipment 13 is respectively connected with the micro-filter 32, the water pump 34 and the fan 38; the water quality sensor 15 is placed in the culture water of the adjusting tank 33.

It should be noted that the culture pond 31 is filled with sterilized culture water for aquaculture, and the number of the culture water can be selected according to actual needs, for example, 1, 2, 3 or more, and is not limited in particular. The micro-filter 32 is used for filtering the culture water left in the culture pond 31 and filtering the excrement and residual bait generated by the aquatic products. The micro-filter 32 conveys the filtered aquaculture water to the adjusting tank 33, and the water quality sensor 15 and the water pump 34 are installed in the adjusting tank 33. Wherein, a water pump 34 (the number of which can be selected according to actual needs, for example, 1, 2, 3 or more, but is not limited in particular) is used for pumping the culture water in the regulation pond 33, and feeding the gas reactor 35 and the nitrification reactor 36 to degrade ammonia in the culture water. The gas reactor 35 and the nitration reactor 36 convey the culture water to the ultraviolet sterilizing device 37 to sterilize the culture water; the ultraviolet sterilizing device 37 delivers the culture water to the culture pond 31. A blower 38 is used to deliver oxygen to the gas reactor 35 and the nitrification reactor 36.

This application circulating water aquaculture equipment, degree of automation is high, but all kinds of parameters in the real time monitoring operation, improve equipment operation's transparency degree, promote aquaculture's informationization to and the original journey is controlled.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples are merely illustrative of several embodiments of the present application, and the description is more specific and detailed, but not to be construed as limiting the scope of the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An intelligent control system applied to circulating water aquaculture equipment is characterized by comprising human-computer interface equipment, data acquisition equipment, a water quality sensor and a communication cable; the communication cable is an RS485 communication cable and an Ethernet communication cable;

the human-computer interface equipment is connected with the data acquisition equipment through the communication cable; the data acquisition equipment is connected with the water quality sensor through the communication cable;

the data acquisition equipment acquires the operating parameters of the circulating water culture equipment and transmits the operating parameters to the human-computer interface equipment;

the water quality sensor is arranged in the culture water of the circulating water culture equipment, collects water quality parameters of the culture water and transmits the water quality parameters to the human-computer interface equipment through the data acquisition equipment.

2. The intelligent control system applied to the circulating water aquaculture device according to claim 1, further comprising an internet of things gateway device;

and the Internet of things gateway equipment is respectively connected with the human-computer interface equipment and the data acquisition equipment.

3. The intelligent control system applied to the circulating water culture equipment as claimed in claim 2, further comprising a mobile terminal;

and the mobile terminal is wirelessly connected with the Internet of things gateway equipment.

4. The intelligent control system applied to the circulating water aquaculture device of claim 2, further comprising a cloud server;

the cloud server is in wireless connection with the Internet of things gateway equipment.

5. The intelligent control system applied to the circulating water aquaculture device of claim 1, further comprising a switch device;

the human-computer interface equipment is connected with the switch equipment through the communication cable; the data acquisition equipment is connected with the switch equipment through the communication cable.

6. The intelligent control system applied to the circulating water aquaculture device of any one of claims 1 to 5, wherein the data acquisition device comprises a PLC device;

the PLC equipment is connected with the human-computer interface equipment through the communication cable; and the PLC equipment is connected with the water quality sensor through the communication cable.

7. The intelligent control system applied to the circulating water aquaculture device of claim 6, wherein the water quality sensor comprises a temperature sensor, a pH sensor and an ORP sensor;

the temperature sensor, the PH sensor and the ORP sensor are respectively connected with the data acquisition equipment;

the temperature sensor, the PH sensor and the ORP sensor are respectively arranged in the culture water of the circulating water culture equipment.

8. The intelligent control system applied to the circulating water aquaculture device according to claim 7, wherein the water quality sensor further comprises a water level sensor, a dissolved oxygen sensor and an ammonia nitrogen sensor;

the water level sensor, the dissolved oxygen sensor and the ammonia nitrogen sensor are respectively connected with the data acquisition equipment;

the water level sensor, the dissolved oxygen sensor and the ammonia nitrogen sensor are respectively arranged in the culture water of the circulating water culture equipment.

9. A recirculating aquaculture apparatus comprising a recirculating aquaculture apparatus and an intelligent control system for said recirculating aquaculture apparatus as claimed in any one of claims 1 to 8;

the data acquisition equipment of the intelligent control system is connected with the circulating water culture equipment and is used for acquiring the operating parameters of the circulating water culture equipment;

and the water quality sensor of the intelligent control system is arranged in the culture water of the circulating water culture equipment.

10. The circulating water aquaculture apparatus of claim 9, wherein the circulating water aquaculture apparatus comprises a culture pond, a micro-filter, a regulating pond, a water pump, a gas reactor, a nitration reactor, an ultraviolet sterilization device and a fan;

the culture pond, the micro-filter, the regulating pond, the gas reactor, the nitration reactor and the ultraviolet sterilization device are sequentially communicated in an ending way;

the water pump is arranged in the culture water of the regulating tank and is respectively communicated with the gas reactor and the nitration reactor; the fan is used for respectively delivering oxygen to the gas reactor and the nitration reactor;

the data acquisition equipment is respectively connected with the micro-filter, the water pump and the fan; the water quality sensor is arranged in the culture water of the adjusting tank.

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