Талшықты-оптикалық температура сенсоры, Интеллектуалды бақылау жүйесі, Қытайда таралған талшықты-оптикалық өндіруші
The high-voltage switchgear equipped with handcart vacuum circuit breakers and isolation handcarts must be equipped with a fluorescent hotspot fiber optic online monitoring system (with a minimum of 8 detection points per high-voltage cabinet) to monitor the circuit breaker contacts, шиналар, cables, т.б. in real time.
With the development of the national economy, the capacity of the power grid increases, the voltage of the power grid rises, and the stability of the power grid operation and supply also face higher requirements. The operating status of the main electrical equipment directly affects whether the power system can operate safely and reliably
High voltage switchgear is used in power systems to control, protect, and isolate electrical equipment. It integrates a large number of electrical components, including high-voltage circuit breakers, isolating switches, and fuses, inside a grounded metal casing. The main function of the switchgear is to open, close, control, and protect electrical equipment during the process of power generation, transmission, distribution, and energy conversion in the power system;
Қазір, with the widespread use of fully enclosed high-voltage switchgear in 10kV power grids, higher requirements have been put forward for its reliability. Дегенмен, abnormal heating of electrical joints inside the switchgear during long-term operation has become a common problem among many factors affecting the safe operation of the switchgear. In response to the current situation of temperature monitoring of high-voltage equipment, the online monitoring system for high-voltage electrical contact temperature has solved the problems encountered in conventional temperature monitoring methods and played a good warning role in avoiding high-voltage electrical equipment accidents.
Соңғы жылдары, multiple fires and large-scale power outages have occurred in the power system due to equipment overheating. Analysis shows that 40% of the annual power accidents in China are caused by overheating of high-voltage electrical equipment; In power supply systems that use high-voltage switchgear and power cables, over 70% of cable operation failures are caused by increased contact resistance and overload at the connection points, resulting in excessively high joint temperatures. A 110kV substation has experienced a prolonged power outage due to the heating and ignition of the feeder cable joints and switch primary contacts, resulting in the burning of three 10kV fully enclosed high-voltage switches and causing significant economic losses. In order to ensure the reliability of power supply and the continuity of production, cable joint temperature measurement has become a standard configuration for high-voltage switchgear in large local chemical enterprises. Дегенмен, due to the reliability of technology and high installation costs, it has not been widely promoted. With the maturity of technology and the reduction of costs, it is believed that there will be a great market demand.
сипаттамалары Fluorescent Fiber Optic Temperature Measurement System for Switchgear Circuit Breaker
1. High temperature resistance, aging resistance, коррозияға төзімділік, high insulation, non adhesion and other characteristics, can adapt to harsh use environments such as high voltage, жоғары температура, and strong electromagnetic fields;
2. Real time monitoring of temperature changes in key areas of high-voltage switchgear/ring main unit, and issuing real-time alarm information (warning, alarm, and over limit) based on temperature changes;
3. Not changing the original form of the contact busbar and cable head of the switchgear, and not reducing the performance of the cable head and the entire cabinet;
4. Can pass partial discharge test and withstand voltage test normally;
5. Fiber optic sensors have good flexibility, high physical hardness, are not easily damaged, and have a long service life;
6. Sensors can be customized according to requirements, including sensor length, probe type, and sensor sheath material (ceramic, glass, plastic, or other insulating materials)