Multi-channel purifier for removing air-borne microbial particles

A technology of microorganisms and purifiers, applied in the field of indoor air purification, to achieve good sterilization and disinfection effects, convenient maintenance, and good purification effects

Active Publication Date: 2018-09-28
DALIAN UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the amount of clean air used for indoor airborne microbial purification is dynamically changing. How to ensure good particle collection effect under different air flow rates has been a problem that has plagued the industry for a long time.

Method used

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  • Multi-channel purifier for removing air-borne microbial particles
  • Multi-channel purifier for removing air-borne microbial particles

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Effect test

Embodiment Construction

[0016] The present invention will ensure that the jet velocity of the air flow in the purification unit is basically unchanged under each air volume of the purifier by adjusting the number of open purification unit channels on each layer of filter modules.

[0017] A multi-channel purifier for removing airborne microbial particles, such as figure 1 shown. Including filter module 1, centrifugal fan 6 and housing. The filter module 1 includes at least two purification units 2 , and the purification units are composed of a damper 3 , an airflow jet 4 , and a particle collection plate 5 . There are nozzles in the jet, and collection grooves in the collecting plate. The air valve 1 is arranged in each ventilation channel, and can be opened and closed by rotation and the opening degree can be adjusted.

[0018] 1. Air flow direction: when the purifier fan is started, the air flow is drawn from top to bottom, and the air flow enters the purification unit channel opened by the air v...

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PUM

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Abstract

The invention belongs to the field of air purification, and discloses a multi-channel purifier for removing air-borne microbial particles. At least two filter modules are arranged in the purifier; a plurality of purification units are arranged in each filter module; and each purification unit accelerates airflow by virtue of an airflow jet device, and the air-borne microbial particles impact ontoa particle collection plate by virtue of inertia. A plurality of jet acceleration nozzles are formed in the airflow jet device, a plurality of collection grooves are formed in the collection plate, the nozzles correspond to the grooves, and an ultraviolet sterilization lamp is arranged in each purification unit and used for carrying out irradiation inactivation on the collected microbial particles. The filter modules are connected in a cascading manner, and a fan is arranged among the filter modules. The purpose that the impact collection efficiency of the purifier for the microbial particlesis unchanged when the needed running air quantity of the purifier is changed is met through the linkage of the starting number of the cascading purification units. According to the purifier disclosedby the invention, the problems of the inertial impact of the particles and the reduction of collection efficiency in the case that the needed clean air quantity is changed, are solved; and meanwhile,the ultraviolet inactivation for the captured microbial particles is realized, so that a good control effect on a bioaerosol for an indoor environment is guaranteed.

Description

technical field [0001] The invention relates to the field of indoor air purification, and can be used for collecting and purifying microbial particles in indoor air, and inactivating the collected microbial particles. Background technique [0002] At present, HEPA filters are mainly used in air purifiers to collect and purify airborne particles. This method can filter particles with high efficiency, but the HEPA filter is a porous medium. After adsorbing water vapor or particle moisture, it is easy to become a place for microorganisms to multiply. Once these microorganisms are aerosolized and enter the indoor air, it will cause air pollution. Secondary pollution. UVC UV lamps have an efficient inactivation and sterilization effect on microorganisms. However, the porous structure of the HEPA filter will hinder the penetration of ultraviolet light, and it is difficult to ensure the ultraviolet light dose required to kill microorganisms. The particle collection or purificatio...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24F1/02F24F3/16F24F13/24F24F13/28
CPCF24F13/24F24F13/28F24F2013/247F24F8/10F24F8/108F24F8/22
Inventor 张腾飞徐伍王继红王树刚
Owner DALIAN UNIV OF TECH
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