An intelligent control system for circulating aquaculture
An intelligent control system and recirculating aquaculture technology, applied in the transmission system, closed-circuit television system, test water, etc., can solve the problems of increased aquaculture costs, and achieve the effect of easy management and easy viewing
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Embodiment 1
[0040] A circulating aquaculture intelligent control system, as attached figure 1 As shown, it includes a server, a display, and a culture monitoring component 6, a water quality adjustment component and a feeder arranged in the culture pond.
[0041] The aquaculture monitoring component 6 is used to collect water quality parameters and aquaculture images and send them to the server. The aquaculture monitoring component 6 includes a pH value measuring instrument, an ammonia nitrogen sensor, a dissolved oxygen sensor, a residual chlorine sensor, a chlorophyll sensor, a suspended matter sensor, a temperature sensor, and a nitrate nitrogen sensor. One or more of the sensors, and an underwater camera. Select the sensor according to the requirements of the cultured water body required for the cultured product. In the present embodiment, the culture monitoring assembly 6 includes a pH value measuring instrument, an ammonia nitrogen sensor and a dissolved oxygen sensor, and the corre...
Embodiment 2
[0052] The difference between this embodiment and Embodiment 1 is that due to the fixed water inflow and outflow in the existing aquaculture environment, when the water quality in the aquaculture environment is poor, rapid exchange of the aquaculture water body cannot be achieved, and the aquaculture products will still be caused by The water quality appears to be diseased. Therefore, in this embodiment, a circulating aquaculture intelligent control system also includes a water inlet control device arranged in a culture pond. There is a culture water body in the culture pond. There is a water outlet. The water inlet control device includes a blocking plate 1 and a telescopic mechanism. The blocking plate 1 is fixedly connected to the bottom and both sides of the aquaculture pond. The blocking plate 1 is used to separate the aquaculture water body into an inflow water body and an outflow water body along the flow direction of the aquaculture water body. The aquaculture water bo...
Embodiment 3
[0058] The differences between this embodiment and embodiment two are:
[0059] In this embodiment, the number of breeding monitoring components 6 is multiple, and three breeding monitoring components 6 are taken as an example for illustration. water quality parameters. as attached Figure 4 As shown, the server also includes an abnormal fitting module, a difference judgment module, a difference calculation module and an instruction generation module.
[0060] The server is also used to compare the water quality parameters collected by all aquaculture monitoring components 6. When the difference between the water quality parameters corresponding to any aquaculture monitoring component 6 and the rest of the water quality parameters is greater than the preset abnormal difference, an abnormal reminder signal is generated. Specifically, the abnormal fitting module is used to perform fitting according to all water quality parameters to obtain a fitting curve, and calculate the di...
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