Samsung electronics co., ltd. (20240286146). ELECTRONIC DUST COLLECTING DEVICE simplified abstract
Contents
ELECTRONIC DUST COLLECTING DEVICE
Organization Name
Inventor(s)
Myungseob Song of Suwon-si (KR)
Myungsoo Kang of Suwon-si (KR)
ELECTRONIC DUST COLLECTING DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240286146 titled 'ELECTRONIC DUST COLLECTING DEVICE
The abstract describes an electric dust collecting device with a semi-conductive structure, low-voltage electrodes, and high-voltage electrodes arranged in a specific configuration.
- The device includes a semi-conductive filter mesh or grille, low-voltage electrodes with a first dielectric layer and conductive electrode layer, and high-voltage electrodes with a second dielectric layer and conductive electrode layer.
- The second conductive electrode layer has a first discharge portion exposed to the outside and a second discharge portion, with a specific distance between them.
- The distance between the discharge portions and the semi-conductive structure is greater than the distance between the discharge portions.
Potential Applications: - Industrial dust collection systems - Air purifiers for homes and offices - HVAC systems for improved air quality
Problems Solved: - Efficient dust collection - Reduction of airborne particles - Improved indoor air quality
Benefits: - Enhanced dust collection performance - Cleaner air environment - Energy-efficient operation
Commercial Applications: Title: Innovative Electric Dust Collecting Device for Enhanced Air Quality This technology can be used in industrial settings, commercial buildings, and residential spaces to improve air quality and reduce dust particles.
Questions about the technology: 1. How does the specific configuration of electrodes improve dust collection efficiency? 2. What are the potential cost savings associated with using this electric dust collecting device?
Original Abstract Submitted
disclosed herein is an electric dust collecting device including: a semi-conductive structure including at least one of a semi-conductive filter mesh or a semi-conductive grille, a plurality of low-voltage electrodes disposed on a downstream side of an air flow path than the semi-conductive structure, including a first dielectric layer and a first conductive electrode layer in the first dielectric layer, and configured to receive an applied low voltage, and a plurality of high-voltage electrodes arranged alternately with the plurality of low-voltage electrodes, including a second dielectric layer and a second conductive electrode layer in the second dielectric layer, and configured to receive an applied high-voltage, wherein the second conductive electrode layer includes a first discharge portion exposed to the outside of the second dielectric layer in an air flow direction and a second discharge portion adjacent to the first discharge portion, and a distance p between the first discharge portion and the second discharge portion is greater than a distance d between the first discharge portion or second discharge portion and the semi-conductive structure.
