A deformable air purifier based on Yoshimura's origami structure

Abstract

The invention discloses a deformable air purifier based on Yoshimura's origami structure, which includes an upper shell assembly, a middle shell assembly, and a lower shell assembly, and the upper shell assembly, the purification cavity, the middle shell assembly, and the lower shell assembly are connected to each other. The purification chamber includes the skeleton of the purification chamber, the inner membrane of the purification chamber, and the outer membrane of the purification chamber. The skeleton of the purification chamber includes several middle bars and side connecting rods. The connection port on the upper part can be rotatably connected with a side connecting rod. The outer membrane of the clean chamber and the inner membrane of the clean chamber are placed on the outer and inner sides of the clean chamber frame respectively and are connected to the middle crossbar. Two middle crossbars are adjacent to each other up and down. Both the outer membrane of the clean chamber and the inner membrane of the clean chamber have folded edges, which have an agglomeration effect on the dust particles with small particle size and are difficult to handle to form larger clusters, which are easy to shake off and separate under the action of the cyclone. Good environmental adaptability and air cleaning effect and other technical characteristics.

Description

technical field [0001] The present invention relates to a purifier, more specifically, to a deformable air purifier based on Yoshimura's origami structure. Background technique [0002] According to the working principle, air purifiers are mainly divided into three types: passive type, active type, and active-passive hybrid type. At present, air purification technologies commonly used in the market include adsorption technology, negative and positive ion technology, catalytic technology, photocatalyst technology, superstructure photomineralization Technology, HEPA high-efficiency filtration technology, electrostatic dust collection technology, etc. have both advantages and disadvantages in technology. Most air purifiers in the prior art are composite types, that is, a variety of purification technologies and material media are used at the same time. However, no matter which one is used For this technology, if the ability to purify the air is to be improved, it is necessary t...

AI Technical Summary

Problems solved by technology

[0002] According to the working principle, air purifiers are mainly divided into three types: passive type, active type, and active-passive hybrid type. At present, air purification technologies commonly used in the market include adsorption technology, negative and positive ion technology, catalytic technology, photocatalyst technology, superstructure photomineralization Technology, HEPA high-efficiency filtration technology, electrostatic dust collection technology, etc. have both advantages and disadvantages in technology. Most air purifiers in the prior art are composite types, that is, a variety of purification technologies and material media are used at the same time. However, no matter which one is used For this technology, if you want to improve the ability to purify the air, you will inevitably increase the size and weight of the purification chamber, making it difficult to move. If you want to consider portability, limited to the limitations of volume and weight, it will inevitably reduce the air purification capacity.

Existing technology and equipment have not solved this problem well

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