Water quality monitoring equipment for aquaculture

Abstract

The invention provides water quality monitoring equipment for aquaculture. The water quality monitoring equipment comprises a left floating body, a right floating body, a support seat arranged on theleft floating body and the right floating body, a plurality of water quality sensors arranged on the lower end surface of the support seat, a waterproof cover arranged on the support seat as well as alifting motor, a control device and a power supply device which are arranged in the waterproof cover, wherein the lifting motor controls lifting and dropping of a lead screw with the lower end vertically penetrating through the support seat, the bottom end of the lead screw is connected with a plurality of cleaning sleeves, each cleaning sleeve is arranged on the corresponding water quality sensor in a sleeving manner, and the cleaning sleeves can slide on the outer side walls of the water quality sensors with the vertical movement of the lead screw; the water quality sensors and the liftingmotor are connected with the control device, and the power supply device supplies power to the whole equipment. The water quality monitoring equipment for aquaculture has the function of cleaning surfaces of the water quality sensors at fixed period, so that the normal operation of the water quality sensors is guaranteed, and the service life of the equipment is prolonged.

Description

technical field [0001] The invention belongs to the field of water quality monitoring, and in particular relates to aquaculture water quality monitoring equipment. Background technique [0002] In fish farming, the water quality of fish ponds is crucial to the growth of fish. The monitoring of fish pond water quality generally includes the monitoring of data such as pH value, oxygen content in water, and water temperature. The existing monitoring method is manual sampling and then detection. The detection method is labor-intensive, inefficient, and the detection is not timely, or the water quality sensor for monitoring is positioned at a fixed point to be measured at a certain position in the fish pond, and the water quality sensor is fixed at a certain position in the fish pond. The monitored data is transmitted to the breeder through wireless transmission. Although this method improves the monitoring efficiency and the breeder can understand the water quality of the fish p...

AI Technical Summary

Problems solved by technology

The existing monitoring method is manual sampling and then detection. The detection method is labor-intensive, inefficient, and the detection is not timely, or the water quality sensor for monitoring is positioned at a fixed point to be measured at a certain position in the fish pond, and the water quality sensor is fixed at a certain position in the fish pond. The monitored data is transmitted to the breeder through wireless transmission. Although this method improves the monitoring efficiency and the breeder can understand the water quality of the fish pond in real time, due to the presence of various impurities, silt or plankton in the fish pond, etc. Substances that are easy to adhere to the water quality sensor, so after a period of use, many substances will adhere to the surface of the water quality sensor, which seriously affects the monitoring accuracy and service life of the water quality sensor

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