KIM, JAE HYUNGKR,김재형,KWON, BONG KIKR,권봉기,KIM, JAE HYUNG,KWON, BONG KI
申请号:
KR1020170038777
公开号:
KR1020180110686A
申请日:
2017.03.27
申请国别(地区):
KR
年份:
2018
代理人:
摘要:
According to a vehicle mounted air cleaning apparatus, the vehicle mounted air cleaning apparatus mounted on a vehicle includes: a body including a body structure mounted on the vehicle; a power supply unit supplied with vehicle power of the vehicle; a power charging unit for charging a charging power source based on the vehicle power supplied through the power supply unit; an air cleaning module in which a photo-catalytic panel formed by integrating a plurality of silicon compound beads coated with a specified photo-catalytic material in a body at a specific thickness T (T>;=2 mm) is disposed and fixed in a specific geometric structure, and harmful components in flowing air are decomposed and purified into harmless components through a specific chemical reaction based on a catalytic operation of the photo-catalytic material by forcing the suctioned air to flow to contact the photo-catalytic material while irradiating an ultraviolet (UV) ray of a wavelength of 320 nm to 405 nm to the photo-catalytic material of the photo-catalytic panel at a specific intensity of illumination by using at least one of the vehicle power and the charged power; and an operating module that is provided in the body part to be operated in at least one of the vehicle power and the charging power, to control an operation of the air cleaning module, to transmit (or broadcast) a Bluetooth-based unidirectional radio signal including specific code information at a specific signal intensity, and to process fairing-based Bluetooth-based data communication with a specific user wireless terminal of a short range.COPYRIGHT KIPO 2018본 발명의 차량 거치형 공기청정장치에 따르면, 차량에 거치되는 차량 거치형 공기청정장치에 있어서, 차량에 거치되는 몸통 구조로 이루어진 몸통부와 상기 차량의 차량 전원을 공급받는 전원 공급부와 상기 전원 공급부를 통해 공급된 차량 전원을 근거로 충전 전원을 충전하는 전원 충전부와 상기 몸통부 내에 지정된 광촉매 물질이 코팅된 복수의 규소 성분 구슬들을 지정된 두께 T(T≥2㎜)로 집적하여 성형한 광촉매 패널을 지정된 기하학 구조로 배치 고정하고 상기 차량 전원과 충전 전원 중 적어도 하나의 전원을 이용하여 320~405nm 파장의 UV(UltraViolet)를 상기 광촉매 패널의 광촉매 물질에 지정된 광 세기로 조사시키면서 흡입된 공기를 상기 광촉매 물질에 접
