Swimming pool all-round cleaning filter robot

Abstract

The invention relates to an automated water quality cleaning and filtering technology for swimming pools, and discloses an omnibearing cleaning and filtering robot for a swimming pool. The cleaning and filtering efficiency of the robot is improved, and the energy consumption of the robot is lowered by optimizing the structure. According to the technical scheme, the omnibearing cleaning and filtering robot for the swimming pool comprises a shell, an electric water pump, a control module, a battery, a filterer, a multi-channel rotating switch, a water storage bin, an air storage tank, a solenoid valve, a water outlet, a steering blade, a steering engine, a water channel, a water surface water inlet and a water bottom water inlet. According to the omnibearing cleaning and filtering robot, the water volume of the water storage bin is controlled through compressed air in the air storage tank, and the robot can float on the water surface of the swimming pool or submerged into water to conduct water quality cleaning and filtering; the battery is adopted to supply power to the robot, cable connection is omitted, and the robot moves flexibly and freely; when the robot is on the water surface, the robot can conduct operation through a remote command or conduct operation according to internal programming.

Description

technical field [0001] The invention relates to swimming pool water automatic cleaning and filtering technology, in particular to a robot that can automatically clean and filter swimming pool water in all directions on the water surface, in the water and at the bottom of the water. Background technique [0002] At present, existing swimming pool cleaning machines are roughly divided into two categories: water quality filtering machines and dirt cleaning machines. The first type of machine is mainly fixed on the shore, and the machine that pumps swimming pool water with high power for filtration, and the second type of machine is mainly a machine that pushes by hand or collects dirt on the bottom or side wall of the pool. These two types of cleaning robots have obvious problems: the fixed pumping and filtering machines on the shore need to create water flow to obtain better filtering effects, and the power is very large, and often need to close the swimming pool and run conti...

AI Technical Summary

Problems solved by technology

These two types of cleaning robots have obvious problems: the fixed pumping and filtering machines on the shore need to create water flow to obtain better filtering effects, and the power is very huge, and it is often necessary to close the swimming pool and operate continuously with multiple machines

[0004] Both of the above two swimming pool cleaning machines have obvious deficiencies: first, this type of equipment can only clean underwater along the pool wall, and cannot take into account the water in the middle of the swimming pool and floating impurities on the water surface, which greatly reduces the cleaning effect; secondly, this type of equipment Due to the need to move in the water, the movement mechanism is subject to relatively large resistance, high energy consumption, and the cleaning process is very slow, requiring additional personnel to be on duty, and additional closed cleaning periods need to be arranged, which affects the convenience of swimming pool use.

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