CN201917815U - On-line water quality automatic monitoring device for circulating aquaculture - Google Patents

Abstract

The utility model provides an on-line water automatic water quality monitoring device for circulating water cultivation. The monitoring device comprises a water reservoir (1) and a plurality of cultivation pools (7) connected to the water reservoir (1) through pipelines; a microstrainer (6), a protein separator (5), a biological purification pool (4), an ultraviolet sterilization pool (3), and an oxygen dissolving machine (2) are connected in series sequentially between the return water ends of the cultivation pools (7) and the water reservoir (1). A monitoring pool (11) provided with a water quality parameter sensor (12) is further comprised, an overflow drainage pipe is arranged at the upper end of the monitoring pool (11), and the lower end of the monitoring pool (11) is connected with the water outflow end pipeline and the water inflow end pipeline of the cultivation pools (7) through electromagnetic valves. Water in a plurality of monitoring points in the system flows into the monitoring pool in sequence, and water quality data is monitored by the water quality parameter sensor, and the data is transmitted to a computer for display. The multi-point automatic water quality monitoring in the circulating water system is completed by using one monitoring pool and one sensor.

Description

On-line water quality automatic monitoring device for circulating aquaculture

technical field

The utility model relates to a water quality monitoring device, in particular to an online water quality monitoring device for circulating water used in aquaculture.

Background technique

Existing monitoring devices for circulating water in aquaculture generally adopt the method of separate sampling and monitoring. It generally has the disadvantages of low degree of automation, cumbersome operation, heavy labor, and low work efficiency. Existing devices of the same type cannot meet the needs of high-standard multi-point water quality monitoring. In addition, the existing similar devices also have the problems of relatively complicated structure and relatively high manufacturing cost.

Utility model content

The technical problem to be solved by the utility model is to provide an on-line water quality automatic monitoring device for recirculating aquaculture, which realizes multi-point automatic monitoring of water inlet and outlet, and makes it have higher monitoring efficiency.

In order to solve the above technical problems, the utility model adopts the following technical solutions.

An on-line water quality automatic monitoring device for circulating aquaculture, comprising a reservoir and several aquaculture ponds connected to the reservoir through pipelines, micro-filters are sequentially connected in series between the backwater end of the aquaculture pond and the reservoir Machine, protein skimmer, biological purification pool, ultraviolet sterilizing pool, dissolved oxygen machine, characterized in that: it also includes a monitoring pool provided with water quality parameter sensors; the upper end of the monitoring pool has an overflow drain pipe, and the lower end of the monitoring pool The water inlet solenoid valve is connected with the water inlet pipeline of the culture pond, and the lower end of the monitoring pond is also connected with the water return pipeline of the culture pond through the water return solenoid valve.

It also includes a computer and a control device connected to each other, the water inlet solenoid valve and the water return solenoid valve are respectively connected to the control device; the water quality parameter sensor is connected to the computer.

The water quality parameter sensor has a RS232 serial port, and the RS232 serial port is connected with the computer through a communication device.

The positive effect of the utility model is:

(1) Water from multiple monitoring points in the aquaculture circulating water system flows into the monitoring pool in sequence, and the water quality data is monitored by the water quality parameter sensor, and the data is transmitted to the computer for display. The multi-point water quality monitoring in the circulating water system is completed by using a detection pool and a sensor, the degree of automation and monitoring efficiency are significantly improved, and the structure of the device is simpler and the cost is lower.

(2) The water quality parameter sensor has an RS232 serial port, and the long-distance transmission between the water quality parameter sensor and the computer is realized through the mutual conversion module between RS232 and RS485.

Description of drawings

Fig. 1 is a structural representation of the utility model.

Fig. 2 is a schematic diagram of the monitoring control of the utility model.

Fig. 3 is a circuit diagram of the utility model control device.

Detailed ways

Below in conjunction with embodiment further illustrate the utility model.

As shown in Figure 1, the present embodiment includes a reservoir 1 and eight culture ponds 7 connected to the reservoir 1 through pipelines, and the backwater ends of the culture ponds 7 and the reservoir 1 are connected in sequence. Connected with microfiltration machine 6, protein skimmer 5, biological purification pool 4, ultraviolet sterilizing pool 3 and dissolved oxygen machine 2. Through the water pump, the aquaculture water is recycled and utilized in the above system.

It also includes a monitoring pool 11 provided with a water quality parameter sensor 12 . The upper end of the monitoring pool 11 has an overflow drain pipe, and the lower end of the monitoring pool 11 is connected with the water inlet pipeline of the breeding pool 7 through the water inlet electromagnetic valve 10, and the lower end of the monitoring pool 11 is also passed through the return water electromagnetic valve 9. It is connected with the return water end pipeline of culture pond 7.

As shown in Figures 2 and 3, a computer 8 and a control device 13 connected to each other are also included. The water inlet solenoid valve 10 and the water return solenoid valve 9 are connected to the control device 13 respectively; the water quality parameter sensor 12 is connected to the computer 8 .

The water quality parameter sensor has a RS232 serial port, and the RS232 serial port is connected with the computer 8 through the communication device 14 .

The water quality parameter sensor 12 has an RS232 serial port, and the RS232 serial port realizes long-distance transmission through the communication device 14 and is connected with the computer 8 . The communication device 14 includes an RS232-to-RS485 module and a RS485-to-RS232 module.

The water quality parameter sensor 12 is YSI-600R type, which can measure six parameters of water quality, namely temperature, salinity, conductivity, pH value, dissolved oxygen, and oxidation-reduction potential.

The control device 13 shown in Figure 3 controls one of the solenoid valves in the circulating water system to open, and the road water enters the monitoring pool 11, and the water quality parameter sensor 12 monitors the water quality data and transmits the data to the computer 8, and the computer 8 displayed on the display. Then control and close the above-mentioned solenoid valve, and control the second solenoid valve to open, the second road water enters the monitoring pool 11 and the first road water is emptied, and the water quality parameter sensor 12 monitors the water quality data of the second road water, followed by analogy.

Claims (3)

1. An online water quality automatic monitoring device for recirculating aquaculture, comprising a reservoir (1) and several breeding ponds (7) connected to the reservoir (1) by pipelines, the breeding ponds (7) A microfiltration machine (6), a protein skimmer (5), a biological purification pool (4), an ultraviolet sterilizing pool (3), and an oxygen dissolving machine (2) are sequentially connected in series between the backwater end and the reservoir (1) , is characterized in that: it also includes a monitoring tank (11) provided with a water quality parameter sensor (12); (10) is connected with the water inlet pipeline of culture pond (7), and the lower end of this monitoring pond (11) is also connected with the water return pipeline of culture pond (7) by return water solenoid valve (9). 2. The online water quality automatic monitoring device for recirculating aquaculture as claimed in claim 1, characterized in that: it also includes a computer (8) and a control device (13) connected to each other, and the described water inlet solenoid valve (10) and return valve The water solenoid valve (9) is respectively connected with the control device (13); the water quality parameter sensor (12) is connected with the computer (8). 3. The online water quality automatic monitoring device for circulating aquaculture as claimed in claim 2, characterized in that: said water quality parameter sensor (12) has a RS232 serial port, and the RS232 serial port communicates with said computer through a communication device (14) (8) CONNECTION.

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