CN206248654U - A kind of underwater environment real-time monitoring device for aquaculture sea area - Google Patents

Abstract

The utility model relates to an underwater environment real-time monitoring device used in aquaculture sea areas. This underwater environment real-time monitoring device for aquaculture sea areas includes a local monitoring center, a server is connected to the local monitoring center, an intelligent detector is connected to the server, and the intelligent detector is connected to water quality monitoring equipment through wired or wireless connection. The monitoring equipment includes temperature monitoring equipment, salinity monitoring equipment, pH value monitoring equipment, heavy metal monitoring electrodes and dissolved oxygen monitoring equipment; the local monitoring center is connected with memory and alarm equipment; the water quality monitoring equipment is equipped with directional equipment power supply. The utility model is simple in structure, reasonable in design, and can automatically complete the detection and alarm of various seawater temperature, salinity, pH value, heavy metal, dissolved oxygen and other parameters by virtue of the monitoring equipment on the sea without any manual operation. Monitor the water quality of mariculture environments to increase the efficiency of mariculture.

Description

A real-time monitoring device for underwater environment used in aquaculture sea area

technical field

The utility model belongs to the technical field of marine aquaculture, and relates to a real-time monitoring device for underwater environment used in aquaculture sea areas.

Background technique

In the mariculture industry, the quality and safety of aquatic products are closely related to the water quality. In particular, it is necessary to periodically monitor the water quality such as PH value, dissolved oxygen, salinity, temperature, etc., to grasp the current status of water quality and its changing trend. At present, most domestic mariculture environment water quality monitoring still adopts manual sampling and laboratory analysis. Manual regular or irregular sampling monitoring is time-consuming and laborious, and it is difficult to fully and objectively reflect the water quality change law. From water quality sampling, sample transportation and storage, experiment In the whole process from laboratory monitoring to data collation, any error in any step will affect the quality of the final data, which cannot meet the demand for real-time and accurate monitoring of water quality. Thus, it is necessary to develop a real-time monitoring system for water quality in mariculture environment.

Utility model content

The technical problem to be solved by the utility model is: to overcome the deficiencies of the prior art, and provide a real-time monitoring device for underwater environment used in aquaculture sea area.

The technical solution adopted by the utility model to solve the technical problem is: a real-time monitoring device for underwater environment used in aquaculture sea area, including a local monitoring center, a server is connected to the local monitoring center, and an intelligent detector is connected to the server. The intelligent detector is connected with water quality monitoring equipment through wired or wireless, and the water quality monitoring equipment includes temperature monitoring equipment, salinity monitoring equipment, pH value monitoring equipment, heavy metal monitoring electrodes and dissolved oxygen monitoring equipment; the local monitoring center is connected with a memory and alarm equipment, the local monitoring center includes a water quality analysis system, and the water quality analysis system is connected to the alarm equipment; the water quality monitoring equipment is equipped with a power supply to the equipment; the dissolved oxygen monitoring equipment includes a dissolved oxygen sensor.

Further, the water quality monitoring equipment includes an aerator and a camera, and both the aerator and the camera are connected with an intelligent detector.

Further, the temperature monitoring equipment includes a sea surface temperature sensor, a mid-sea temperature sensor and a sea bottom temperature sensor connected to an intelligent detector.

Further, the salinity monitoring equipment includes a sea surface salinity sensor, a mid-sea salinity sensor and a seabed salinity sensor connected to an intelligent detector.

Further, the pH value monitoring equipment includes a sea surface pH sensor, a sea pH sensor and a seabed pH sensor connected with an intelligent detector.

Further, the power supply includes a solar panel, a current limiting circuit and a storage battery connected in sequence, and the storage battery is installed on the water quality monitoring equipment; the solar panel, the current limiting circuit and the storage battery are all connected to the single-chip microcomputer.

The beneficial effects of the utility model are: the utility model is simple in structure, reasonable in design, and can automatically complete the detection and monitoring of seawater temperature, salinity, pH value, heavy metals, dissolved oxygen and other parameters without any manual operation. Alarm, at the same time, can monitor the water quality of the mariculture environment in real time, thereby improving the efficiency of mariculture.

Description of drawings

Below in conjunction with accompanying drawing, the utility model is further described.

Fig. 1 is a block diagram of the utility model;

Fig. 2 is a structural block diagram of the power supply in Fig. 1 .

Among them, 1. Local monitoring center, 2. Server, 3. Intelligent detector, 4. Temperature monitoring equipment, 5. Salinity monitoring equipment, 6. PH value monitoring equipment, 7. Heavy metal monitoring electrode, 8. Dissolved oxygen monitoring equipment , 9. Aerator, 10. Camera, 11. Power supply, 12. Memory, 13. Alarm equipment, 1-1. Water quality analysis system, 4-1. Sea surface temperature sensor, 4-2. Sea temperature sensor, 4 -3, seabed temperature sensor, 5-1, sea surface salinity sensor, 5-2, sea salinity sensor, 5-3, seabed salinity sensor, 6-1, sea surface PH sensor, 6-2, sea PH Sensor, 6-3, seabed pH sensor, 8-1, dissolved oxygen sensor, 11-1, solar panel, 11-2, current limiting circuit, 11-3, storage battery, 11-4, single-chip microcomputer.

detailed description

The utility model is described further in conjunction with accompanying drawing now. These drawings are simplified schematic diagrams only to illustrate the basic structure of the utility model in a schematic way, so they only show the configurations related to the utility model.

As shown in Fig. 1 and Fig. 2, the present embodiment discloses a real-time monitoring device for the underwater environment used in aquaculture sea areas, including a local monitoring center 1, a server 2 is connected to the local monitoring center 1, and a smart device is connected to the server 2. Detector 3, intelligent detector 3 is connected with water quality monitoring equipment through cable, water quality monitoring equipment includes temperature monitoring equipment 4, salinity monitoring equipment 5, pH value monitoring equipment 6, heavy metal monitoring electrode 7 and dissolved oxygen monitoring equipment 8; local monitoring The center 1 is connected with a memory 12 and an alarm device 13, and the local monitoring center 1 includes a water quality analysis system 1-1, and the water quality analysis system 1-1 is connected with the alarm device 13; the water quality monitoring device is equipped with a power supply for supplying power to the equipment 11; The dissolved oxygen monitoring device 8 includes a dissolved oxygen sensor 8-1.

Water quality monitoring equipment comprises aerator 9 and camera 10, and aerator 9 and camera 10 are all connected with intelligent detector 3; Temperature monitoring equipment 4 comprises the sea surface temperature sensor 4-1 that is connected with intelligent detector 3, the temperature Sensor 4-2 and seabed temperature sensor 4-3; Salinity monitoring equipment 5 comprises the sea surface salinity sensor 5-1 that is connected with intelligent detector 3, the sea salinity sensor 5-2 and the seabed salinity sensor 5-3 PH value monitoring equipment 6 comprises the sea surface pH sensor 6-1 that is connected with intelligent detector 3, the pH sensor 6-2 in the sea and the seabed pH sensor 6-3; The current limiting circuit 11-2 and the storage battery 11-3 are installed on the water quality monitoring equipment; the solar panel 11-1, the current limiting circuit 11-2 and the storage battery 11-3 are all connected to the single chip microcomputer 11-4.

The water quality monitoring equipment monitors various index data of sea water quality, which is centrally controlled by the intelligent detector 3, and the intelligent detector 3 transmits the data to the local monitoring center 1 through the server 2, and the local monitoring center 1 stores the data in the memory 12, and the water quality analysis system 1-1 After analyzing the data, once each index data exceeds the standard, the alarm device 13 will be connected. Intelligent detector 3 controls aerator 9 and video camera 10, is used for increasing seawater dissolved oxygen, and video camera is used for observing sea surface condition.

In the power management part, the operating voltage of the solar cell panel 11-1 is 18V, the battery 11-3 selects a polymer battery with a rated voltage of 11.1V, and the solar cell panel 11-1 supplies the battery 10-3 with a current limiting circuit 11-2. Charging; after the battery 11-3 is fully charged, the battery 11-3 is protected by the current limiting circuit 11-2 to prevent overcharging. The storage battery 11-3 provides the 3.3V voltage required by the MSP430 microcontroller 11-4. In order to monitor the operating status of the sensor node itself in real time, the single chip microcomputer 11-4 detects the current voltage of the solar panel 11-1 and the battery 11-3 in real time. Specifically, the battery 11-3 is a lithium battery.

This underwater environment real-time monitoring device for aquaculture sea areas has a simple structure and reasonable design, and can automatically complete various types of seawater temperature, salinity, PH value, heavy metals, dissolved oxygen, etc. Parameter detection and alarm, at the same time, can monitor the water quality of the mariculture environment in real time, thereby improving the efficiency of mariculture.

Inspired by the above ideal embodiment according to the utility model, through the above description content, relevant staff can completely make various changes and modifications within the scope of not deviating from the technical idea of the utility model. The technical scope of this utility model is not limited to the content in the description, but must be determined according to the scope of the claims.

Claims (6)

1. a kind of underwater environment real-time monitoring device for aquaculture sea area, it is characterized in that：Including local monitoring center (1), this Server (2) is connected with ground monitoring center (1), intelligent detecting instrument (3), intelligent detecting instrument (3) are connected with server (2) Water quality monitoring equipment is connected with by wired or wireless, water quality monitoring equipment includes temperature monitoring equipment (4), salinity monitoring device (5), pH value monitoring device (6), heavy metal monitor electrode (7) and dissolved oxygen monitoring device (8)；The local monitoring center (1) On be connected with memory (12) and warning device (13), local monitoring center (1) includes water quality analytical system (1-1), water Matter analysis system (1-1) is connected with warning device (13)；The power supply that oriented equipment is powered is installed in the water quality monitoring equipment (11)；The dissolved oxygen monitoring device (8) includes dissolved oxygen sensor (8-1).

2. the underwater environment real-time monitoring device for aquaculture sea area according to claim 1, it is characterized in that：Described water Quality supervision measurement equipment includes aerator (9) and video camera (10), and aerator (9) and video camera (10) connect with intelligent detecting instrument (3) Connect.

3. the underwater environment real-time monitoring device for aquaculture sea area according to claim 1, it is characterized in that：Described temperature Degree monitoring device (4) includes the sea surface temperature sensor (4-1), the marine temperature sensor (4- that are connected with intelligent detecting instrument (3) 2) with bottom-water temperature sensor (4-3).

4. the underwater environment real-time monitoring device for aquaculture sea area according to claim 1, it is characterized in that：Described salt Degree monitoring device (5) includes the sea surface salinity sensor (5-1), the marine salinity sensor (5- that are connected with intelligent detecting instrument (3) 2) with seabed salinity sensor (5-3).

5. the underwater environment real-time monitoring device for aquaculture sea area according to claim 1, it is characterized in that：Described PH Value monitoring device (6) including be connected with intelligent detecting instrument (3) extra large table PH sensors (6-1), marine PH sensors (6-2) and Seabed PH sensors (6-3).

6. the underwater environment real-time monitoring device for aquaculture sea area according to claim 1, it is characterized in that：Described electricity Source (11) includes the solar panel (11-1), current-limiting circuit (11-2) and the battery (11-3) that are sequentially connected, battery (11-3) is arranged in water quality monitoring equipment；The solar panel (11-1), current-limiting circuit (11-2) and battery (11- 3) it is connected with single-chip microcomputer (11-4).