Monitoring of copper bars in high and low voltage switchgear using fiber optic temperature sensors-INNO

Medição de temperatura do gabinete de entrada de alta tensão, medição de temperatura do gabinete de saída de alta tensão, sistema de medição de temperatura de fibra óptica de painel de distribuição de alta tensão, dispositivo de medição de temperatura de fibra óptica, medição de temperatura multiponto, resistência de alta tensão, anti-interferência.

Com o aumento do consumo de eletricidade das pessoas, a capacidade de carga do sistema de distribuição também está aumentando constantemente. No entanto, acidentes causados por explosões de alta temperatura em armários de distribuição ocorrem de tempos em tempos, inevitavelmente causando perigo aos trabalhadores e danos materiais. O monitoramento tradicional de temperatura de gabinetes de distribuição usa infravermelho ou medição de temperatura sem fio, e o monitoramento e a inspeção de gabinetes de distribuição geralmente exigem que vários inspetores inspecionem regularmente cada gabinete, que consome muito tempo e mão de obra. Human inspection may also lead to errors and even fire and explosion accidents. Portanto, how to effectively monitor all distribution cabinets has become a problem that needs to be solved.

Although the existing visible low-voltage switchgear solves the problem of temperature detection for all traditional models of visible low-voltage switchgear during use, it is still manual temperature measurement and requires intensive manual viewing and monitoring of the data display of the visible low-voltage switchgear. Due to the dense number of temperature monitoring points, it causes high labor intensity, easy omission, and inaccurate monitoring. Além disso, traditional visible low-voltage switchgear cannot continuously measure temperature at multiple points. During use, it has the disadvantage of being unable to measure temperature in areas that are prone to temperature rise, such as inside drawers and at the screw connection point of the primary copper bar.

In the practical application of copper bars entering wire ducts, due to long-term operation in the air and the influence of ambient temperature and humidity, expansão e contração térmica, dimensionamento de superfície, oxidação ou corrosão pode ocorrer, resultando em contatos soltos e mau contato. The copper bar entering wire joints during operation may experience abnormal temperature overheating, which may lead to fire or major safety accidents. Durante a operação, the copper busbar entering the wire duct is in a fully enclosed state, so it is necessary to monitor the temperature of the copper busbar entering the wire duct joint to improve the reliability of the operation of the copper busbar entering the wire duct.

FJINNO independently develops and produces an online temperature measurement system for high and low voltage distribution cabinets. It uses temperatura de fibra óptica fluorescente measurement to detect the temperature of copper bars and incoming and outgoing lines, and transmits the detected temperature data to the control unit. Quando o medição de temperatura de fibra óptica unit detects a location with excessive temperature, the control unit processes the temperature data and transmits the processed temperature data to the platform through the information transmission unit. The platform collects and analyzes the temperature data and sends the temperature situation of each distribution cabinet to the intelligent terminal in real time.