Indoor dust removal system with self-driven high-voltage direct-current generator combined with dust removal glass

Abstract

The invention provides an indoor dust removal system with a self-driven high-voltage direct-current generator combined with dust removal glass, which is characterized by comprising a high-voltage direct-current friction nano-generator used for converting mechanical energy into a direct-current electric signal and outputting the direct-current electric signal and comprising a friction power generation assembly and an air breakdown discharge assembly; and the dust removal glass is electrically connected with the high-voltage direct-current friction nano-generator, comprises a dust collection electrode assembly, a discharge electrode assembly and a frame assembly, and is used for efficiently removing dust. The self-energized dust removal system does not need any filtering material in the working process, and particulate matters in air can be removed in a high-voltage electrostatic adsorption mode. And meanwhile, the inherent performances of ventilation and light transmission of the window are kept. The method is simple and easy to implement, low in cost, safe and reliable, a potential, self-driven and sustainable method is provided for improving living health and creating a cleaner indoor air environment, and the method has wide practical application value.

Description

technical field [0001] The invention relates to the technical field of dust removal, in particular to an indoor dust removal system with a self-driven high-voltage direct current generator combined with a dust removal glass. Background technique [0002] Particulate matter PM2.5 is the main component of smog. Long-term exposure of the human body to a smog environment can cause health problems such as cardiovascular and respiratory diseases. Outdoor air pollution also affects indoor air quality, and PM in the atmosphere can enter indoors through natural ventilation, air-conditioning ventilation systems, and infiltration through gaps in buildings. Therefore, indoor air purification equipment plays an essential role in people's daily life. [0003] In the prior art, methods such as negative ion purification, electrostatic dust removal, and filter dust removal are usually used to remove indoor PM. However, these traditional methods have many disadvantages. For example, the exi...

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Problems solved by technology

However, these traditional methods have many disadvantages, such as: the existing electrostatic precipitator and negative ion generator need a booster circuit to increase the output voltage, which is potentially dangerous to use. In order to avoid accidental contact, protective measures need to be set to ensure the safety of electricity use, and the overall circuit is complicated. , bulky, and potentially dangerous to use; as an alternative, the filter dust removal technology uses a fan to drive the polluted air through the fiber filter material, which needs to be equipped with a fan, whose high wind resistance characteristics will increase the workload of the fan and cause noise problems. In addition , it also needs to replace the filter material frequently, which increases the cost of use

Therefore, at the present stage, there is a lack of an indoor dust removal system with simple structure, low cost, high comfort and strong safety to protect people's health.

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