CN203012458U - Aquaculture online water quality monitoring system - Google Patents

Abstract

The utility model discloses an aquaculture online water quality monitoring system which comprises a water quality monitoring subsystem, a main control machine and a server. The water quality monitoring subsystem comprises a monitoring probe, a signal front end processing module, a microcontroller and a wireless transmitting and receiving module, wherein the monitoring probe, the signal front end processing module, the microcontroller and the wireless transmitting and receiving module are connected in turn. The number of the water quality monitoring subsystem is at least one. The main control machine is connected with a wireless transmitting and receiving device. The wireless transmitting and receiving device is wirelessly connected with the wireless transmitting and receiving module of the water quality monitoring subsystem. The server is connected with the main control machine. According to the utility model, the aquaculture online water quality monitoring system can monitor the water quality parameters in real time and at high speed, and timely carries out feedback and regulates the water environment, so as to ensure that the water quality conditions can be controlled in a suitable range and meet the actual needs of a large-scaled aquaculture field.

Description

The online water quality monitoring system of aquaculture

Technical field

The utility model relates to the aquaculture industry, is specifically related to the online water quality monitoring system of aquaculture.

Background technology

In aquaculture, water quality has direct impact to output, the meat of aquatic products, healthy closely bound up with the aquatic products eater also, thereby water quality is carried out detecting in real time and in time to adjust water environment very important when cultivation.Mainly by extracting water sample, this mode has not only increased the test time delay to the detection method that present industry can be used, and makes adjusting control feedback speed slack-off; And needing artificial participation high, input cost is high; Such offline inspection mode can not be adapted to extensive aquaculture, for the high aquaculture pattern of water quality requirement of real-time, can bring non-controllable risk.

The utility model content

Not enough for above-mentioned prior art, the technical problems to be solved in the utility model is to provide a kind of online water quality monitoring system, improves to regulate and controls feedback speed, reduces manually participating in, and satisfies the needs of extensive aquaculture.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is that the online water quality monitoring system of a kind of aquaculture comprises water quality monitoring subsystem, main control computer and server; Described water quality monitoring subsystem comprises monitoring probe, signal front-end processing module, microcontroller and the radio receiving transmitting module that connects successively; The quantity of water quality monitoring subsystem is at least one; Main control computer is connected with wireless transmitter, the radio receiving transmitting module wireless connections of this wireless transmitter and water quality monitoring subsystem; Server is connected with main control computer.Such structure makes water quality parameter by Real-Time Monitoring, in time carry out water quality regulation.

Preferably, also comprise intelligent terminal; Described intelligent terminal is connected with main control computer by mobile communication network.Even such structure makes the user also can in time learn water quality condition away from plant.

Further technical scheme is that described water quality monitoring subsystem is provided with a plurality of monitoring probes; Be provided with the self-adapting detecting circuit in described signal front-end processing module; The input end of this self-adapting detecting circuit is connected with monitoring probe, and output terminal is connected with microcontroller.A plurality of monitoring probes are monitored respectively the different quality parameter; The self-adapting detecting circuit refers to automatically to regulate according to the amplitude of input signal the circuit module of enlargement factor, the quantity of self-adapting detecting circuit can be a plurality of different monitoring probes that connect respectively, also can only have data that detect respectively a plurality of monitoring probes with much channel communication.

Further technical scheme is that described self-adapting detecting circuit comprises operational amplifier, parameter setting device, feedback controller; Operational amplifier is connected with parameter setting device; The input end of feedback controller is connected with the output terminal of operational amplifier, and the output terminal of feedback controller is connected with parameter setting device; Parameter setting device also is connected with microcontroller.

Preferably, described water quality monitoring subsystem comprises that also the control end of described stepper motor is connected with microcontroller by driving circuit for the stepper motor of throwing in chemical raw material; Microcontroller also is connected with data disaply moudle.Such structure can be regulated water quality condition automatically, and water quality parameter directly shows.

The online water quality monitoring system of aquaculture of the present utility model can be monitored water quality parameter in real time, at high speed, in time feeds back and regulates water environment, guarantees that condition of water quality can be controlled at suitable scope, satisfies the actual needs of extensive aquatic farm.

Description of drawings

Fig. 1 is the structural representation of the online water quality monitoring system of the utility model aquaculture.

Fig. 2 is the structural representation of the water quality monitoring subsystem of the online water quality monitoring system of the utility model aquaculture.

Fig. 3 is the schematic diagram of the self-adapting detecting circuit of water quality monitoring subsystem in the online water quality monitoring system of the utility model aquaculture.

Wherein, 1, water quality detection subsystem; 11, monitoring probe; 12, signal front-end processing module; 13, microcontroller; 14, radio receiving transmitting module; 15, stepper motor; 16, driving circuit; 17, data disaply moudle; 18, self-adapting detecting circuit; 181, operational amplifier; 182, parameter setting device; 183, feedback controller; 2, main control computer; 21, wireless transmitter; 3, server; 4, intelligent terminal; 41, mobile communication network.

Embodiment

As shown in Figure 1, the online water quality monitoring system of aquaculture of the present utility model comprises water quality monitoring subsystem 1, main control computer 2 and server 3.The quantity of water quality monitoring subsystem 1 is a plurality of, is used for monitoring different product cultivating pools, satisfies the needs of the synthesization cultivation of different aquatic products kinds.Main control computer 2 is connected with wireless transmitter 21, and this wireless transmitter 21 and 1 wireless connections of water quality monitoring subsystem make main control computer 2 can receive the water quality data that sends from water quality monitoring subsystem 1; Wherein, can connect by short haul connection modes such as LAN (Local Area Network), WIFI, USB between being connected of wireless transmitter 21 and main control computer 2.Server 3 is connected with main control computer 2.Native system also comprises intelligent terminal 4; Described intelligent terminal 4 is connected with main control computer 2 by the mobile communication network 41 that Virtual network operator provides.

Wherein, as shown in Figure 2, described water quality monitoring subsystem 1 comprises monitoring probe 11, signal front-end processing module 12, microcontroller 13 and the radio receiving transmitting module 14 that connects successively; Wherein, the quantity of monitoring probe 11 is a plurality of, respectively the different water quality parameter of monitor temperature, dissolved oxygen concentration, pH value, nitrite concentration, nitrate concentration, basicity, hardness etc.Signal front-end processing module 12 is used for the pre-service such as signal to monitoring probe 11 amplifies, and the signal of monitoring probe 11 is become can be by the handled data of microcontroller 13.Water quality monitoring subsystem 1 is by this radio receiving transmitting module 14 and wireless transmitter 21 wireless connections.Described water quality monitoring subsystem 1 comprises that also for the stepper motor 15 of throwing in chemical raw material, the control end of described stepper motor 15 is connected with microcontroller 13 by driving circuit 16; Microcontroller 13 also is connected with data disaply moudle 17.

As shown in Figure 3, be provided with self-adapting detecting circuit 18 in described signal front-end processing module 12, the quantity of this self-adapting detecting circuit 18 can be a plurality of, respectively corresponding different monitoring probes 11; Also can only establish one, connection data selector switch and clock circuit between self-adapting detecting circuit 18 and monitoring probe 11 make the signal of a plurality of monitoring probes 11 be sent in turn self-adapting detecting circuit 18 in multichannel mode.Self-adapting detecting circuit 18 comprises operational amplifier 181, parameter setting device 182, feedback controller 183; Operational amplifier 181 is connected with parameter setting device 182; The input end of feedback controller 183 is connected with the output terminal of operational amplifier 181, and the output terminal of feedback controller 183 is connected with parameter setting device 182; Parameter setting device 182 also is connected with microcontroller 13.The enlargement factor of operational amplifier 181 is correlated with from the resistance ratio on being connected to its different pins, parameter setting device 182 can be realized in the following way: the resistance that connects a plurality of different resistances on each pin of operational amplifier 181, use the various logic device as switch, change the quantity of resistance access or the annexation between resistance, thereby change the enlargement factor of operational amplifier 181; Only need corresponding relation is set up in the break-make setting of parameter setting device 182 controls and the program of microcontroller 13, can make microcontroller 13 read enlargement factor.Operational amplifier 181 first carries out pre-amplification one time under the enlargement factor of former setting, feedback controller 183 reads the signal value after amplification, controls parameter setting device 182 and changes circuit parameter, adjusts enlargement factor, improves the precision of input.

To one skilled in the art, can make other various corresponding changes and deformation according to technical scheme described above and design, and within these all changes and deformation all should belong to the protection domain of the utility model claim.

Claims (5)

1. the online water quality monitoring system of aquaculture, is characterized in that: comprise water quality monitoring subsystem, main control computer and server; Described water quality monitoring subsystem comprises monitoring probe, signal front-end processing module, microcontroller and the radio receiving transmitting module that connects successively; The quantity of water quality monitoring subsystem is at least one; Main control computer is connected with wireless transmitter, the radio receiving transmitting module wireless connections of this wireless transmitter and water quality monitoring subsystem; Server is connected with main control computer.

2. the online water quality monitoring system of aquaculture according to claim 1, is characterized in that: also comprise intelligent terminal; Described intelligent terminal is connected with main control computer by mobile communication network.

3. the online water quality monitoring system of aquaculture according to claim 1 and 2, it is characterized in that: described water quality monitoring subsystem is provided with a plurality of monitoring probes; Be provided with the self-adapting detecting circuit in described signal front-end processing module; The input end of this self-adapting detecting circuit is connected with monitoring probe, and output terminal is connected with microcontroller.

4. the online water quality monitoring system of aquaculture according to claim 3, it is characterized in that: described self-adapting detecting circuit comprises operational amplifier, parameter setting device, feedback controller; Operational amplifier is connected with parameter setting device; The input end of feedback controller is connected with the output terminal of operational amplifier, and the output terminal of feedback controller is connected with parameter setting device; Parameter setting device also is connected with microcontroller.

5. the online water quality monitoring system of aquaculture according to claim 4 is characterized in that: described water quality monitoring subsystem comprises that also the control end of described stepper motor is connected with microcontroller by driving circuit for the stepper motor of throwing in chemical raw material; Microcontroller also is connected with data disaply moudle.

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