CN204613684U

CN204613684U - From the long-term supervisory system of the appearance real-time culture environment of aquatic products of original position

Info

Publication number: CN204613684U
Application number: CN201520378425.6U
Authority: CN
Inventors: 徐艳; 朱家村; 张金政
Original assignee: Qingdao Agricultural University
Current assignee: Qingdao Agricultural University
Priority date: 2015-06-03
Filing date: 2015-06-03
Publication date: 2015-09-02
Anticipated expiration: 2025-06-03

Abstract

From the long-term supervisory system of the appearance real-time culture environment of aquatic products of original position, comprise the one or more aquatic monitoring devices being positioned at below the water surface, be positioned at the relay forwarding device of the water surface, the host computer being connected with alarm more than water surface; Aquatic monitoring device comprises the single-chip microcomputer be placed in preserving and sealing cabin, sensor group, acquisition memory, communicator, monitoring device power supply, clock module; Relay forwarding device comprises the buoy that bottom is provided with counterweight, and is arranged on single-chip microcomputer, trunk memory, relay power supply, aquatic monitoring communicator, host computer communicator, GPS locating device, the clock module in buoy.The utility model conveniently can realize the real-time monitoring of culture environment of aquatic products, have employed multiple sensors to monitor in real time water body environment, monitoring parameter is transmitted to TU Trunk Unit with Wireless-wire communication form, employ the storage mode of image data multiple duplication, make the water quality data after collection, multiple spot storage backup, adds the reliability that data store.

Description

From the long-term supervisory system of the appearance real-time culture environment of aquatic products of original position

Technical field

The utility model relates to a kind of from holding the long-term supervisory system of the real-time culture environment of aquatic products of original position, for monitoring the water quality parameter of culture environment of aquatic products.

Background technology

Since 20 century 70s, world aquaculture increase of production is rapid, and the proportion in aquatic products industry also improves day by day, and aquaculture is the activity in production of breeding, cultivating and gather in the crops aquatic animals and plants under manual control.Generally there are the modes such as extensive cultivation, intensive culture and high density culture.Extensive cultivation throws in seed in medium and small natural water area, forms aquatic products completely by natural bait.Intensive culture forms aquatic products with bait throwing in, fertilizing method in comparatively small size pond.High density culture adopts flowing water, temperature control, oxygenation and the methods such as high-quality bait of throwing something and feeding, and carries out high-density breeding in small size pond, thus obtains the aquatic products of high-quality and high yield.Along with the development of society, the raising of people's living standard, following will be more and more to the demand of aquatic products, and quality is more and more higher.The prerequisite achieved this end is keep breeding water body good stable, and such as dissolved oxygen DO, pH value, temperature, turbidity, water level etc. to be survived vital parameter real time monitoring and adjusting in real time to aquatic products.

From existing research method, at present, domestic culture environment of aquatic products, has 1) pure artificial aquaculture, do not do any monitoring for culture environment of aquatic products, completely manually determine whole breeding process, efficiency is low, output of aquatic products and quality low; 2) the Laboratory Monitoring method of off-line, sampling, monitoring result feedback cycle is long, more can not carry out the automatic adjustment of water quality according to result, is difficult to the safety ensureing aquaculture; 3) Real-Time Monitoring, can carry out collection and the monitoring of on-the-spot water body parameter, and effect is better, achieves and automatically monitors water body, controls the effect of water body parameter, improves the seed output and quality of aquatic products.

Summary of the invention

The utility model object is to provide a kind of from holding the long-term supervisory system of the real-time culture environment of aquatic products of original position, by gathering water quality environment Monitoring Data, water quality environment is monitored in real time, achieve the automatically real-time long-term in-situ observation of culture environment of aquatic products, can Timeliness coverage change of water quality, the very first time feeds back to user side, and take effectively to arrange the loss regulating water body to reduce change of water quality to a certain extent to bring, practical, thus solve the deficiency of existing water quality environment monitoring technology.

A kind of from holding the long-term supervisory system of the real-time culture environment of aquatic products of original position, it is characterized in that comprising the one or more aquatic monitoring devices being positioned at below the water surface, be positioned at the relay forwarding device of the water surface, be positioned at the host computer being connected with alarm of more than the water surface;

Described aquatic monitoring device comprises the single-chip microcomputer be placed in preserving and sealing cabin, and the sensor group, acquisition memory, communicator, monitoring device power supply, the clock module that are connected with this single-chip microcomputer; Described sensor group includes dissolved oxygen sensor, pH value sensor, temperature sensor, turbidity transducer; Described aquatic monitoring device is used for Real-Time Monitoring Dissolved Oxygen in Water, pH value, temperature, turbidity data, and data are forwarded to relay forwarding device by communicator;

Described relay forwarding device comprises the buoy that bottom is provided with counterweight, with the single-chip microcomputer be arranged in buoy, trunk memory, relay power supply, aquatic monitoring communicator, host computer communicator, GPS locating device, clock module in buoy, is also had to be connected with this single-chip microcomputer; Described relay forwarding device is used for the data received from aquatic monitoring device to be transferred to host computer, and described host computer communicator and host computer adopt GPRS to communicate; The data received are carried out preservation and are shown in real time by described host computer.

Adopt wire communication between the aquatic monitoring communicator of described communicator and relay forwarding device, and be connected with aquatic monitoring communicator by underwater electrical connector, or adopt underwater sound radio communication between communicator and aquatic monitoring communicator.

This system also comprises mobile phone receiving element, and the water quality environment Monitoring Data received is transmitted to mobile phone receiving element by note by described host computer.

Described acquisition memory and trunk memory adopt solid state data storage card, as SD card, CF card.

Described relay power acquisition solar panel or lead-acid accumulator.

Described monitoring device power supply is lead-acid accumulator.

The utility model conveniently can realize the real-time monitoring of culture environment of aquatic products.The present invention can adopt many group aquatic monitoring devices, each aquatic monitoring Plant arrangement zones of different in water body, each device have employed multiple sensors and monitors in real time water body environment, monitoring parameter is with radio communication and underwater sound communication or wired 485 communication form are unified is transmitted to TU Trunk Unit, and is uploaded to host computer by TU Trunk Unit is unified.The utility model have employed the method for multiple electric energy supply, improves the reliability of power supply continuously, and monitoring means adopts lead-acid accumulator to power, and TU Trunk Unit adopts lead-acid accumulator to power in conjunction with the method for solar panel.The utility model employs the storage mode of image data multiple duplication, by settling from holding storage backup module in monitoring point and via node, making the water quality data after collection, multiple spot storage backup, adding the reliability that data store.

Accompanying drawing explanation

Fig. 1 is general structure schematic diagram of the present utility model.

Fig. 2 is the structural representation of TU Trunk Unit of the present utility model.

Fig. 3 is the structural representation of aquatic monitoring device of the present utility model.

Wherein, 1, relay forwarding device, 2, alarm, 3, host computer, 4, mobile phone, 5, aquatic monitoring device, 6, preserving and sealing cabin, 7, single-chip microcomputer, 8, sensor group, 9, storer, 10, communicator, 11, power supply, 12, clock module, 13, counterweight, 14, buoy, 15, single-chip microcomputer, 16, trunk memory, 17, relay power supply, 18, aquatic monitoring communicator, 19, host computer communicator, 20, GPS locating device, 21, clock module, 22, watertight plug connector, 23, sensor probe.

Embodiment

As Figure 1-3, a kind of from holding the long-term supervisory system of the real-time culture environment of aquatic products of original position, it is characterized in that comprising the one or more aquatic monitoring devices 5 being positioned at below the water surface, be positioned at the relay forwarding device 1 of the water surface, be positioned at the host computer 3 being connected with alarm 2 of more than the water surface;

Described aquatic monitoring device 5 comprises the single-chip microcomputer 7 be placed in preserving and sealing cabin 6, and the sensor group 8, acquisition memory 9, communicator 10, monitoring device power supply 11, the clock module 12 that are connected with this single-chip microcomputer 7; Described sensor group 8 includes dissolved oxygen sensor, pH value sensor, temperature sensor, turbidity transducer, and each sensor probe 23 is positioned at pressurized capsule side and contacts with water body; Described aquatic monitoring device 5 Real-Time Monitoring water body environment quality, and the data of preserving collection in real time forward the data to relay forwarding device 1 by communicator 10 simultaneously;

Described relay forwarding device 1 comprises the buoy 14 that bottom is provided with counterweight 13, with the single-chip microcomputer 15 be arranged in buoy 14, trunk memory 16, relay power supply 17, aquatic monitoring communicator 18, host computer communicator 19, GPS locating device 20, clock module 21 is had to be connected with the single-chip microcomputer in this buoy 14; Described relay forwarding device 1 will receive water quality environment Monitoring Data uniform transmission to host computer 3 from each aquatic monitoring device 5, and described host computer communicator 19 adopts GPRS to communicate with host computer 3; The water quality environment Monitoring Data received carries out preserving, showing in real time by described host computer 3.

Wire communication (485) is adopted between described communicator 10 and the aquatic monitoring communicator 18 of relay forwarding device 1, and be connected with aquatic monitoring communicator 18 by underwater electrical connector, or adopt underwater sound radio communication between communicator 10 and aquatic monitoring communicator 18.

This system also comprises mobile phone receiving element 4, and the water quality environment Monitoring Data received is transmitted to mobile phone receiving element 4 by note by described host computer 3.

Described acquisition memory 9 adopts solid state data storage card, as SD card, CF card with trunk memory 16.

Described relay power supply 17 adopts solar panel or lead-acid accumulator.

Described monitoring device power supply 11 is lead-acid accumulator.

During use, aquatic monitoring device 5 is positioned at below the water surface and can lays one or more as required, for omnibearing Real-Time Monitoring water body environment parameter, and be transmitted to relay forwarding device 1 by unified for data in a wired or wireless manner while of preserving the data gathered in real time; Relay forwarding device 1 part is positioned at the following another part of the water surface and is positioned at more than the water surface, the part being positioned at below the water surface can realize wire communication or underwater sound communication, the part being positioned at more than the water surface can arrange antenna equipment, be responsible for receive water quality environment Monitoring Data from aquatic monitoring device 5, the form communicated by GPRS is transferred to host computer 3; Host computer 3 is preserved the water quality environment Monitoring Data received, in real time display and analyzing and processing, and by gather data retransmission to cell phone user terminal.The utility model is to solve for the purpose of water quality environment monitoring, gather water quality environment Monitoring Data to monitor in real time water quality environment, achieve the automatically real-time long-term in-situ observation of culture environment of aquatic products, reasonable in design, Timeliness coverage change of water quality, the very first time feeds back to user side, to take effectively to arrange adjustment water body in time, reduce the loss that change of water quality is brought to a certain extent, practical.

Claims

1. one kind is held the long-term supervisory system of the real-time culture environment of aquatic products of original position certainly, it is characterized in that comprising the one or more aquatic monitoring devices (5) being positioned at below the water surface, be positioned at the relay forwarding device (1) of the water surface, be positioned at the host computer (3) being connected with alarm (2) of more than the water surface;

Described aquatic monitoring device (5) comprises the single-chip microcomputer (7) be placed in preserving and sealing cabin (6), and the sensor group (8), acquisition memory (9), communicator (10), monitoring device power supply (11), the clock module (12) that are connected with this single-chip microcomputer (7); Described sensor group (8) includes dissolved oxygen sensor, pH value sensor, temperature sensor, turbidity transducer; Described aquatic monitoring device (5) for Real-Time Monitoring Dissolved Oxygen in Water, pH value, temperature, turbidity data, and forwards the data to relay forwarding device (1) by communicator (10);

Described relay forwarding device (1) comprises the buoy (14) that bottom is provided with counterweight (13), with the single-chip microcomputer (15) be arranged in buoy (14), trunk memory (16), relay power supply (17), aquatic monitoring communicator (18), host computer communicator (19), GPS locating device (20), clock module (21) is also had to be connected with this single-chip microcomputer (15) in buoy inside; Described relay forwarding device (1) is for being transferred to host computer (3) by the data received from aquatic monitoring device (5), and described host computer communicator (19) adopts GPRS to communicate with host computer (3); The data received are carried out preservation and are shown in real time by described host computer (3).

2. as claimed in claim 1 a kind of from holding the long-term supervisory system of the real-time culture environment of aquatic products of original position, wire communication is adopted between the aquatic monitoring communicator (18) that it is characterized in that described communicator (10) and relay forwarding device (1), and be connected with aquatic monitoring communicator (18) by underwater electrical connector (22), or adopt underwater sound radio communication between communicator (10) and aquatic monitoring communicator (18).

3. as claimed in claim 1 a kind of from holding the long-term supervisory system of the real-time culture environment of aquatic products of original position, it is characterized in that this system also comprises mobile phone receiving element (4), the water quality environment Monitoring Data received is transmitted to mobile phone receiving element (4) by note by described host computer (3).

4. as claimed in claim 1 a kind of from holding the long-term supervisory system of the real-time culture environment of aquatic products of original position, it is characterized in that described acquisition memory (9) and trunk memory (16) adopt solid state data storage card.

5. as claimed in claim 1 a kind of from holding the long-term supervisory system of the real-time culture environment of aquatic products of original position, it is characterized in that described relay power supply (17) adopts solar panel or lead-acid accumulator.