CN103399553A

CN103399553A - On-line water quality monitoring system for aquiculture

Info

Publication number: CN103399553A
Application number: CN2013103460854A
Authority: CN
Inventors: 刘红
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-08-10
Filing date: 2013-08-10
Publication date: 2013-11-20

Abstract

The invention discloses an on-line water quality monitoring system for aquiculture. The on-line water quality monitoring system comprises an computer with a wireless network card, a user node (1), a gateway node (2) and a group of sensor nodes (3), wherein the user node (1) is composed of a smart phone or a tablet computer; the gateway node (2) is connected with the user node (1) through a Wi-Fi module (14) or a 3G/GPRS module (15); the sensor nodes (3) are connected with the gateway node (2) through a second ZigBee module (20), arranged on an aquiculture site, and used for detecting water quality; the user node (1) and the gateway node (2) adopt a B/S framework; the gateway node (2) is used for data processing and network management through an ARM9 module (11); the sensor nodes (3) are used for transmitting collected data to the user node (1) through the wireless network of the B/S framework. The on-line water quality monitoring system further comprises a control terminal node (4), wherein the control terminal node (4) is connected with the gateway node (2) through a third ZigBee module (26) and used for transmitting control signals to a control circuit in a control cabinet on the aquiculture site, so as to start site equipment to adjust the water quality.

Description

A kind of online monitoring system of water quality for aquaculture

Technical field

The present invention relates to the water quality monitoring field, specifically a kind of online monitoring system of water quality for aquaculture.

Background technology

Known in the aquaculture industry, the quality of water quality plays important effect to cultivation, China is also very backward aspect the aquaculture robotization at present, for the monitoring of water quality, mostly adopts the method for artificial sampling of fixed place and time, can not understand timely and accurately the situation of water quality; And existing water quality online monitoring system adopts the mode of wired connection to carry out transmission process to Monitoring Data, if and the switch board of wanting the Long-distance Control scene is as the switch board of heating, oxygenation switch board and to filter switch board be also mode by remote wiring, this mode difficult wiring, can cause the shortcoming that monitor node is few, monitoring range is little, be unsuitable for promoting the use of on a large scale.

Summary of the invention

The object of the present invention is to provide a kind of online monitoring system of water quality for aquaculture, this supervisory system adopts wireless network communication to carry out transmission process to Monitoring Data, need not to arrange wired communication line, but expanding monitoring node, monitoring range is wide, and can control field apparatus according to Monitoring Data and reach the effect of remote adjustment water quality.

The technical solution adopted for the present invention to solve the technical problems is: the gateway node that a kind of online monitoring system of water quality for aquaculture, described supervisory system comprise the user node that consists of the computing machine with wireless network card, smart mobile phone or panel computer, be connected with user node by wireless network and be connected with gateway node by wireless network and be arranged on the one group sensor node of aquaculture scene for detection of water quality; Described user node and gateway node adopt the B/S framework; Described gateway node comprises the ARM9 module, and the ARM9 module is arranged with the first coupled power supply, a ZigBee module, Wi-Fi module or 3G/GPRS module outward, and gateway node is by Wi-Fi module or 3G/GPRS module and user node wireless connections; Described sensor node comprises sensor, A/D module and the 2nd ZigBee module, sensor is connected with the 2nd ZigBee module by the A/D module, sensor node is by the ZigBee module composition wireless network in the 2nd ZigBee module and gateway node, and sensor node also comprises the second source that is connected with sensor.

Further, described supervisory system also comprises the control terminal node that is arranged at the aquaculture scene, described control terminal node comprises the 3rd ZigBee module, the amplifier that is connected with the 3rd ZigBee module and the 3rd power supply that is used for powering, the ZigBee module composition wireless network in described the 3rd ZigBee module and gateway node; Described control terminal node also comprises the relay that is connected with amplifier, and the output of amplifier triggers by relay the switch board of heating, the oxygenation switch board that are arranged at the aquaculture scene and starts field apparatus with the operation circuit that filters switch board.

Further, described the first power supply is connected and composed by the first electric battery and the first power management module; Described second source is by

Two electric battery and second source administration module connect and compose; Described the 3rd power supply is connected and composed by the 3rd electric battery and the 3rd power management module.

Further, described user node also comprises PLC, and PLC is connected with the serial ports of ARM9 module.

Further, described ARM9 module also is connected with the computing machine in user node by Ethernet interface.

The ZigBee module is used for building reliable wireless sensor network, cheap low in energy consumption; The ARM9 module has the function that data are processed and forwarded, in order to coordinate and to safeguard whole network; The B/S framework has been simplified exploitation and the maintenance of system, makes the user node of networking can receive and dispatch operation anywhere; Power management module can reasonably distribute and optimize power supply; The ARM9 module also has Ethernet interface and serial ports, conveniently user node is carried out wired expansion.

The invention has the beneficial effects as follows, gateway node is by Wi-Fi module or 3G/GPRS module and user node formation Wi-Fi, sensor node forms wireless network by ZigBee module and gateway node, thereby make the data of sensor collection pass to user node by wireless network, meanwhile, the control terminal node also forms wireless network by ZigBee module and gateway node, thereby user node can be transmitted control signal to the control terminal node in order to control field apparatus by wireless network; Whole monitoring realizes by wireless network, but the expanding monitoring node, and monitoring range is wide, and can control field apparatus according to Monitoring Data and reach the effect of remote adjustment water quality.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples:

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation of gateway node in the present invention;

Fig. 3 is the structural representation of sensor node in the present invention;

Fig. 4 is the structural representation of control terminal node in the present invention;

1. user node; 2. gateway node; 3. sensor node; 4. control terminal node; 5. the switch board of heating; 6. oxygenation switch board; 7. filtration switch board; 8. the first power supply; 9. the first electric battery; 10. the first power management module; 11.ARM9 module; 12. Ethernet interface; 13. serial ports; 14.Wi-Fi module; 15.3G/GPRS module; A 16. ZigBee module; 17. second source; 18. the second electric battery; 19. second source administration module; 20. the 2nd ZigBee module; 21.A/D module; 22. sensor; 23. the 3rd power supply; 24. the 3rd electric battery; 25. the 3rd power management module; 26. the 3rd ZigBee module; 27. amplifier; 28 relays; 29.PLC.

Embodiment

With shown in Figure 3, gateway node 2 comprises ARM9 module 11 as shown in Figure 1, Figure 2, outer the first coupled power supply 8, a ZigBee module 16, Wi-Fi module 14 or the 3G/GPRS module 15 of being arranged with of ARM9 module 11; Gateway node 2 is by Wi-Fi module 14 or 3G/GPRS module 15 and user node 1 wireless connections; User node 1 can be the wireless terminal that computing machine, smart mobile phone or the panel computer etc. with wireless network card can be surfed the Net; User node 1 adopts the B/S framework with gateway node 2; Be provided with one group of sensor node 3 for detection of water quality at the aquaculture scene, sensor node 3 comprises sensor 22, A/D module 21 and the 2nd ZigBee module 20, sensor 22 is connected with the 2nd ZigBee module 20 by A/D module 21, sensor node 3 forms wireless network by the 2nd ZigBee module 20 and the ZigBee module 16 in gateway node 2, and sensor node 3 also comprises the second source 17 that is connected with sensor 22; In conjunction with shown in Figure 4, the present invention also comprises the control terminal node 4 with gateway node 2 wireless connections, control terminal node 4 comprises the 3rd ZigBee module 26, the amplifier 27 that is connected with the 3rd ZigBee module 26 and the 3rd power supply 23 that is used for powering, and described the 3rd ZigBee module 26 forms wireless network with the ZigBee module 16 in gateway node 2; Described control terminal node 4 also comprises the relay 28 that is connected with amplifier 27, and the output of amplifier 27 triggers by relay 28 switch board 5 of heating, the oxygenation switch board 6 that are arranged at the aquaculture scene and starts field apparatus with the operation circuit that filters switch board 7; Described the first power supply 8 is connected and composed by the first electric battery 9 and the first power management module 10; Described second source 17 is connected and composed with second source administration module 19 by the second electric battery 18; Described the 3rd power supply 23 is connected and composed by the 3rd electric battery 24 and the 3rd power management module 25; Described user node 1 also comprises PLC29, and PLC29 is connected with the serial ports 13 of ARM9 module 11; Described ARM9 module 11 can also be connected with the computing machine in user node 1 by Ethernet interface 12.

sensor 22 will detect after the on-the-spot water quality signal of aquaculture is changed by A/D module 21 and pass to the 2nd ZigBee module 20, the 2nd ZigBee module 20 is passed to a ZigBee module 16 by wireless network with signal, the one ZigBee module 16 is passed to connected ARM9 module 11 with signal, ARM9 module 11 sends signal to user node 1 by Wi-Fi module 14 or 3G/GPRS module 15, thereby makes computing machine, smart mobile phone or panel computer on user node 1 can grasp in real time the water quality information at aquaculture scene, when finding that water quality is abnormal, the user can pass through computing machine, smart mobile phone or panel computer transmits control signal, control signal sends ARM9 module 11 to by the wireless network that Wi-Fi module 14 or 3G/GPRS module 15 build, ARM9 module 11 sends signal to control terminal node 4 by the wireless network that a ZigBee module 16 and the 3rd ZigBee module 26 build, amplifier 27 in control terminal node 4 triggers by relay 28 switch board 5 of heating that is arranged at the aquaculture scene after signal is amplified, oxygenation switch board 6 starts field apparatus with the operation circuit that filters in switch board 7, to reach the purpose of Long-distance Control, for fear of the water quality situation that still can monitor the aquaculture scene in the situation of mobile network signals fault, user node 1 also comprises PLC29, and PLC29 is connected with the serial ports 13 of ARM9 module 11, ARM9 module 11 can also be connected with the computing machine in user node 1 by Ethernet interface 12, by PLC29, with the computer user who is connected with Ethernet, still can monitor field condition.

Claims

1. water quality online monitoring system that is used for aquaculture, it is characterized in that the gateway node (2) that described supervisory system comprises the user node (1) that consists of the computing machine with wireless network card, smart mobile phone or panel computer, be connected with user node (1) by wireless network and be connected with gateway node (2) by wireless network and be arranged on the one group sensor node (3) of aquaculture scene for detection of water quality; Described user node (1) adopts the B/S framework with gateway node (2); Described gateway node (2) comprises ARM9 module (11), outer coupled the first power supply (8), a ZigBee module (16), Wi-Fi module (14) or the 3G/GPRS module (15) of being arranged with of ARM9 module (11), gateway node (2) is by Wi-Fi module (14) or 3G/GPRS module (15) and user node (1) wireless connections; Described sensor node (3) comprises sensor (22), A/D module (21) and the 2nd ZigBee module (20), sensor (22) is connected with the 2nd ZigBee module (20) by A/D module (21), sensor node (3) forms wireless network by the 2nd ZigBee module (20) and the ZigBee module (16) in gateway node (2), and sensor node (3) also comprises the second source (17) that is connected with sensor (22).

2. a kind of online monitoring system of water quality for aquaculture according to claim 1, it is characterized in that, described supervisory system also comprises the control terminal node (4) that is arranged at the aquaculture scene, described control terminal node (4) comprises the 3rd ZigBee module (26), the amplifier (27) that is connected with the 3rd ZigBee module (26) and the 3rd power supply (23) that is used for powering, and described the 3rd ZigBee module (26) forms wireless network with the ZigBee module (16) in gateway node (2); Described control terminal node (4) also comprises the relay (28) that is connected with amplifier (27), and the output of amplifier (27) triggers by relay (28) switch board of heating (5), the oxygenation switch board (6) that are arranged at the aquaculture scene and starts field apparatus with the operation circuit that filters switch board (7).

3. a kind of online monitoring system of water quality for aquaculture according to claim 1 and 2, is characterized in that, described the first power supply (8) is connected and composed by the first electric battery (9) and the first power management module (10); Described second source (17) is connected and composed by the second electric battery (18) and second source administration module (19); Described the 3rd power supply (23) is connected and composed by the 3rd electric battery (24) and the 3rd power management module (25).

4. a kind of online monitoring system of water quality for aquaculture according to claim 1 and 2, is characterized in that, described user node (1) also comprises PLC (29), and PLC (29) is connected with the serial ports (13) of ARM9 module (11).

5. a kind of online monitoring system of water quality for aquaculture according to claim 1, is characterized in that, described ARM9 module (11) also is connected with the computing machine in user node (1) by Ethernet interface (12).