CN209359381U - Fishpond water quality management system for monitoring based on Internet of Things - Google Patents

Abstract

Fishpond water quality management system for monitoring based on Internet of Things, it is related to fish culture technical field.Fishpond water quality management system for monitoring based on Internet of Things it include aquaculture pond, water level monitor, water pipe, oxygen increasing pump, refrigerating plant, controller, temperature sensor, oxygen content detector, heating device, power supply module, Internet of Things transmission module, remote monitoring and administration terminal, water level monitor is arranged in aquaculture pond left side wall top, water pipe is arranged below water level monitor, oxygen increasing pump is arranged in aquaculture pond bottom of pond upper surface, the left and right sides of oxygen increasing pump is arranged in refrigerating plant, controller is arranged in aquaculture pond right side wall, temperature sensor is arranged above oxygen content detector, heating device is arranged in aquaculture pond left and right sidewall.After adopting the above technical scheme, having the function of remote monitoring and administration the utility model has the following beneficial effects: its design is reasonable, detection data is accurate, brings convenience for the management in fish pond, improves the efficiency of management of aquaculture, is suitble to promote the use of.

Description

Fishpond water quality management system for monitoring based on Internet of Things

Technical field

The utility model relates to fish culture technical fields, and in particular to the fishpond water quality monitoring management system based on Internet of Things System.

Background technique

Aquaculture is the important pillar industry of country, and aquaculture production has act foot light in economic construction and social development The status of weight, such as a wide range of cultivation of fish, the growing environment around fish, which grows it, to be played an important role, therefore is realized to fish The monitoring management of pool environment has great importance.Former, the monitoring management in fish pond bad border is mainly passed through and is artificially observed It records and is managed by the experience of aquaculture management personnel, the environment of adjustment equipment is mainly carried out by artificial record and experience Control parameter is in the environment in fish pond under conditions of one suitable fish growth.In the actual operation process, around due to fish pond Environment it is complicated and changeable, by artificial observational record, so by people accumulation managerial experiences come control equipment operation exist Error and have hysteresis quality.With the progress of the reach of science and the mankind, the equipment of modernization is gradually coming into our life It is living, therefore start the equipment for occurring modernizing on the market and the aquatic environment in fish pond is monitored, but it is existing on the market at present For fishpond water quality monitoring management system it is incomplete, one parameter is obtained in real time to fish pond environment in detection system, this The parameter obtained in the case of kind is that more accurately, administrative staff control equipment behaviour by obtained more accurate data again Make, but this method cannot the environmental management to fish pond carry out long-range operation, cause many inconvenience to management work, drop The low efficiency of management of aquaculture is not suitable for promoting the use of.

Utility model content

The purpose of this utility model is that it is in view of the drawbacks of the prior art and insufficient, a kind of fish pond based on Internet of Things is provided Water quality monitoring management system, its design is reasonable, has the function of remote monitoring and administration, and detection data is accurate, is the pipe in fish pond Reason is brought conveniently, improves the efficiency of management of aquaculture, is suitble to promote the use of.

To achieve the above object, the utility model is using following technical scheme: it includes aquaculture pond 1, water level monitor 11, water pipe 12, oxygen increasing pump 13, refrigerating plant 14, controller 2, temperature sensor 21, oxygen content detector 22, heating device 15, water level monitoring is arranged in power supply module 3, Internet of Things transmission module 4, remote monitoring and administration terminal 5,1 left side wall top of aquaculture pond Device 11, water pipe 12 are arranged below water level monitor 11, and oxygen increasing pump 13 is arranged in 1 bottom of pond upper surface of aquaculture pond, refrigerating plant 14 are arranged in the left and right sides of oxygen increasing pump 13, and the setting of controller 2 contains in 1 right side wall of aquaculture pond, the setting of temperature sensor 21 in oxygen 22 top of amount detector, the setting of heating device 15 are electrically connected in 1 left and right sidewall of aquaculture pond, power supply module 3 and controller 2, control Device 2 processed is connected with 4 signal of Internet of Things module, and Internet of Things module 4 is connected with 5 signal of remote monitoring and administration terminal.

The controller 2 includes data reception module 23, data processing system 24, data storage cell 25, data biography Defeated module 26, data reception module 23 and data processing system 24 are electrically connected, data processing system 24 and data storage cell 25 are electrically connected, and data storage cell 25 and data transmission module 26 are electrically connected.

Water level monitor 11, temperature sensor 21 and the oxygen content detector 22 forms detection module 6.

Water pipe 12, oxygen increasing pump 13, refrigerating plant 14 and the heating device 15 forms execution module 7.

The controller 2 and detection module 6 are electrically connected, and controller 2 and execution module 7 are electrically connected.

Working principle of the utility model is: the water temperature inside temperature sensor senses aquaculture pond, the detection of oxygen content detector Oxygen content inside aquaculture pond, when the water temperature inside temperature sensor senses aquaculture pond is too low, administrative staff, which can open, to be added Thermal makes the water temperature inside aquaculture pond reach best cultivation temperature, the water temperature over-high inside temperature sensor senses aquaculture pond When then can by refrigerating plant reduce aquaculture pond inside water temperature, when oxygen content detector detects that the oxygen inside aquaculture pond contains When measuring too low, then the oxygen content inside oxygen increasing pump increase aquaculture pond can be made.

After adopting the above technical scheme, the utility model has the beneficial effect that its design is reasonable, there is remote monitoring and administration Function, detection data is accurate, for fish pond management bring conveniently, improve the efficiency of management of aquaculture, be suitble to promote It uses.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the principles of the present invention block diagram；

Fig. 3 is the functional block diagram of controller 2 in the utility model.

Description of symbols: aquaculture pond 1, water level monitor 11, water pipe 12, oxygen increasing pump 13, refrigerating plant 14, heating dress 15, controller 2, temperature sensor 21, oxygen content detector 22, data reception module 23, data processing system 24, data are set to deposit Storage unit 25, power supply module 3, Internet of Things module 4, remote monitoring and administration terminal 5, detection module 6, is held data transmission module 26 Row module 7.

Specific embodiment

Referring to shown in Fig. 1-Fig. 3, present embodiment the technical solution adopted is that: it is by aquaculture pond 1, water level monitor 11, water pipe 12, oxygen increasing pump 13, refrigerating plant 14, controller 2, temperature sensor 21, oxygen content detector 22, heating device 15, power supply module 2, Internet of Things transmission module 3, remote monitoring and administration terminal 4 form, and water is installed on the left side wall top of aquaculture pond 1 Whether position monitor 11, the water that water level monitor 11 incudes inside aquaculture pond 1 are lower than standard, and water pipe 12 is arranged in aquaculture pond 1 Left lower when the water inside aquaculture pond 1 is very few, can be passed through clear water, 1 upper base surface of aquaculture pond by water pipe 12 Several oxygen increasing pumps 13 are installed, the left and right sides of oxygen increasing pump 13 is mounted on refrigerating plant 14, and heating device 15 is mounted on aquaculture pond 1 On the wall of the left and right sides, controller 2, which is inlayed, to be arranged inside 1 right side wall of aquaculture pond, 2 surface mounting temperature sensor 21 of controller With oxygen content detector 22, the input terminal of the output end of power supply module 3 and controller 2 is electrically connected, the output end of controller 2 and The input end signal of Internet of Things module 4 connects, and Internet of Things module 4 is connected with 5 signal of remote monitoring and administration terminal, temperature sensor Water temperature inside 21 induction aquaculture ponds 1, oxygen content detector 22 detects the oxygen content inside aquaculture pond 1, when temperature sensor 21 When water temperature inside induction aquaculture pond 1 is too low, administrative staff, which can open heating device 15, reaches the water temperature inside aquaculture pond 1 Best cultivation temperature can then be dropped when the water temperature over-high inside temperature sensor 21 incudes aquaculture pond 1 by refrigerating plant 14 Water temperature inside low aquaculture pond 1 can then be beaten when the oxygen content inside oxygen content detector 22 detects aquaculture pond 1 is too low Carry out the oxygen content inside the increase aquaculture pond 1 of oxygen increasing pump 13.

The controller 2 is transmitted by data reception module 23, data processing system 24, data storage cell 25, data Module 26 forms, and the output end of data reception module 23 and the input terminal of data processing system 24 are electrically connected, data processing system The output end of system 24 and the input terminal of data storage cell 25 are electrically connected, output end and the data transmission of data storage cell 25 The input terminal of module 26 is electrically connected.

Water level monitor 11, temperature sensor 21 and the oxygen content detector 22 forms detection module 6, common to detect Bad border inside aquaculture pond 1.

Water pipe 12, oxygen increasing pump 13, refrigerating plant 14 and the heating device 15 forms execution module 7, adjusts cultivation Breeding environment inside pond 1.

The output end of the input terminal of the controller 2 and detection module 6 is electrically connected, and the output end of controller 2 and is held The input terminal of row module 7 is electrically connected.

Working principle of the utility model is: the water temperature inside temperature sensor senses aquaculture pond, the detection of oxygen content detector Oxygen content inside aquaculture pond, when the water temperature inside temperature sensor senses aquaculture pond is too low, administrative staff, which can open, to be added Thermal makes the water temperature inside aquaculture pond reach best cultivation temperature, the water temperature over-high inside temperature sensor senses aquaculture pond When then can by refrigerating plant reduce aquaculture pond inside water temperature, when oxygen content detector detects that the oxygen inside aquaculture pond contains When measuring too low, then the oxygen content inside oxygen increasing pump increase aquaculture pond can be made.

After adopting the above technical scheme, the utility model has the beneficial effect that its design is reasonable, there is remote monitoring and administration Function, detection data is accurate, for fish pond management bring conveniently, improve the efficiency of management of aquaculture, be suitble to promote It uses.

The above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, those of ordinary skill in the art couple The other modifications or equivalent replacement that the technical solution of the utility model is made, without departing from technical solutions of the utility model Spirit and scope should all cover in the scope of the claims of the utility model.

Claims (5)

1. the fishpond water quality management system for monitoring based on Internet of Things, it is characterised in that: it includes aquaculture pond (1), water level monitor (11), water pipe (12), oxygen increasing pump (13), refrigerating plant (14), controller (2), temperature sensor (21), oxygen content detector (22), heating device (15), power supply module (3), Internet of Things module (4), remote monitoring and administration terminal (5), aquaculture pond (1) left side Water level monitor (11) are arranged in wall top, and below water level monitor (11), oxygen increasing pump (13) setting exists for water pipe (12) setting Aquaculture pond (1) bottom of pond upper surface, refrigerating plant (14) setting are being supported in the left and right sides of oxygen increasing pump (13), controller (2) setting Pond (1) right side wall is grown, above oxygen content detector (22), heating device (15) setting is being cultivated for temperature sensor (21) setting Pond (1) left and right sidewall, power supply module (3) and controller (2) are electrically connected, and controller (2) and Internet of Things module (4) signal connect It connects, Internet of Things module (4) is connected with remote monitoring and administration terminal (5) signal.

2. the fishpond water quality management system for monitoring according to claim 1 based on Internet of Things, it is characterised in that: the control Device (2) processed includes data reception module (23), data processing system (24), data storage cell (25), data transmission module (26), data reception module (23) and data processing system (24) are electrically connected, and data processing system (24) and data storage are single First (25) are electrically connected, and data storage cell (25) and data transmission module (26) are electrically connected.

3. the fishpond water quality management system for monitoring according to claim 1 based on Internet of Things, it is characterised in that: the water Position monitor (11), temperature sensor (21) and oxygen content detector (22) composition detection module (6).

4. the fishpond water quality management system for monitoring according to claim 1 based on Internet of Things, it is characterised in that: the storage Water pipe (12), oxygen increasing pump (13), refrigerating plant (14) and heating device (15) composition execution module (7).

5. the fishpond water quality management system for monitoring according to claim 1 based on Internet of Things, it is characterised in that: the control Device (2) processed and detection module (6) are electrically connected, and controller (2) and execution module (7) are electrically connected.