Intelligent air disinfection robot

Abstract

The invention relates to the technical field of air purification equipment, in particular to an intelligent air disinfection robot which comprises a shell. A wind input chamber, a purification chamber and a wind output chamber are sequentially arranged in the shell from bottom to top. The side walls, where the wind input chamber is located, of the shell are each provided with a wind input isolating net. A first primary filter is arranged in the wind input chamber. A purification wind channel is formed in the purification chamber. A fan, a plasma disinfection module and an ultraviolet light disinfection module are sequentially arranged in the purification wind channel from bottom to top. The side walls, where the wind output chamber is located, of the shell are each provided with a wind output isolating net. A second primary filter is arranged in the wind output chamber. The first primary filter and the second primary filter are each of a pipe type structure. According to the robot, the primary filters, the plasma disinfection module and the ultraviolet light disinfection module are utilized for sequentially cooperating for fully filtering and purifying air, meanwhile, universality of equipment is improved by utilization of infrared induction, and thus the equipment can be moved and used in a man and machine coexistence environment.

Description

technical field [0001] The invention relates to the technical field of air purification equipment, in particular to an intelligent air disinfection robot. Background technique [0002] With the improvement of living standards, while people use chemicals such as landscaping and decoration materials to improve the living environment, many toxic and harmful substances in the air threaten the health of the human body. Especially in recent years, with the deterioration of the global environment and the emergence of smog, air pollution has become an "invisible killer" that endangers human health. [0003] At present, air pollution purification methods include traditional purifiers such as ventilation, filtration, and adsorption. etc., have been unable to meet the requirements of the environment. For example, the filtration purification method is mainly used to separate suspended particles in the air, but it is helpless for bacteria, toxic and harmful gases and other pollutants; ...

AI Technical Summary

Problems solved by technology

[0003] At present, air pollution purification methods include traditional purifiers such as ventilation, filtration, and adsorption. etc., have been unable to meet the requirements of the environment

For example, the filtration purification method is mainly used to separate suspended particles in the air, but it is helpless for bacteria, toxic and harmful gases and other pollutants; the adsorption saturation problem exists in the adsorption method, which restricts the wide use of this technology; the operating cost of the catalytic purification method Relatively high, so the scope of application is limited

Air purification technologies such as negative ion air purifiers, ozone air purifiers and plasma air purifiers have emerged as the times require. Although negative ion and ozone air purification technologies are relatively mature, there are problems such as low air purification efficiency and ozone hazards, and existing Most of the air purification systems in China are fixed, which cannot be used and operated in large places, which reduces the practicability of air purification equipment

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