The invention relates to an
ozone water treatment device for an
aquaculture pond. The
ozone water treatment device is characterized in that a
submersible pump, a water inlet pipeline and a water inlet end of a jet device are sequentially communicated with one another, an
ozone generator is communicated with a gas inlet end of the jet device, a water outlet end of the jet device is communicated with a
water vapor mixing pipeline, the
water vapor mixing pipeline is communicated with a
water vapor delivery channel inside a
cycloid travel mechanism, the
cycloid travel mechanism downwardly extends to the bottom of the pond, an
impeller is arranged at the lower end of the
colloid travel mechanism and is coaxially fixedly connected with the
colloid travel mechanism by a
long axis which penetrates the
colloid travel mechanism, and frictional force generated by blades and the bottom of the pond when the
impeller rotates is used as driving force for the colloid travel mechanism; solar photovoltaic
cell panels are used as power sources for the
submersible pump, the colloid travel mechanism and a linear travel mechanism, and controllers, light sensors and temperature sensors are arranged on the solar photovoltaic
cell panels. The ozone
water treatment device has the advantages that dissolved
oxygen content conditions of water can be judged by the controllers in real time according to temperature and illumination intensity data, and the
submersible pump, the colloid travel mechanism and the linear travel mechanism can be automatically started by the controllers when the corresponding dissolved
oxygen content of the water reaches set values.