Remotely control the start and stop of the aerator through the mobile phone WeChat applet, with accurate environmental monitoring parameters to realize the intelligence of aquaculture
The ZW monitoring box uses various sensor equipment, network transmission, intelligent control and other Internet of Things technologies to monitor real-time environmental temperature, humidity, air pressure and other parameters. It is suitable for a variety of freshwater fishery and aquaculture oxygen control needs. Based on the parameters, users can remotely control the start and stop of the aerator through the WeChat applet of the mobile phone, and keep abreast of the fishing grounds. Do not leave the house, fish ponds are all in control. The use of ZW intelligent monitoring box can prevent the lack of oxygen in fish ponds, improve the utilization rate of bait, promote increased production and high yield, and save electricity and labor costs. It is suitable for various aquaculture environments such as pond culture, fence culture, and cage culture.
1. Real-time environmental monitoring: Through sophisticated sensor equipment, monitor the temperature, humidity, air pressure and other data of the environment where the equipment is currently located, and transmit the data to the mobile phone simultaneously. Users can learn real-time environmental information directly on the mobile phone and make judgments based on the data. 2. Remote control of the aerator: Through the network transmission technology, the user can directly control the startup or shutdown of the aerator with one button in the WeChat applet of the mobile phone. It can control up to 8 devices at the same time, saving the trouble of field operation. 3. Timing start, abnormal alarm: self-contained clock function, can be set to automatically start and stop at any time. Built-in alarm system, when the environmental parameters exceed the set threshold, the alarm will be activated and the aerator will be turned on automatically.
1. Ensure the necessary conditions for fish ingestion and growth, and prevent floating heads, suffocation and death caused by hypoxia, or air bubble disease caused by over saturation. 2. Reduce labor intensity and cost by 15%-45%, increase production and efficiency. 3. Avoid human error and improve the ability to resist risks. 4. Time switch aerator, save 15%-40% electricity, 5%-10% bait.
1. Save worry and effort, reduce costs: reduce power costs through machine control. Machines replace manpower, reducing labor costs and time costs. 2. Increase production and efficiency, and improve the ability to resist risks: prevent hypoxic floating heads and improve the safety of fish ponds. Improve the water quality of fish ponds and reduce the occurrence of fish diseases. Improve the utilization rate of bait.
