论文信息 - Movement characteristic of a circuit breaker with repulsion force compensated contact system

Movement characteristic of a circuit breaker with repulsion force compensated contact system

This article proposes a new structure of contact system to improve short-time withstand capacity of direct current circuit breaker. With this new contact system, the electrodynamic repulsion force is compensated. The principle of compensation is illustrated at the beginning. Then the electrodynamic force of the contact system is quantified by analyzing the Lorentz force in conductive loop and the Holm force between contacts. The factors and their influences on electrodynamic force are also investigated. Subsequently, based on multibody dynamics, the movement characteristic model is established. The opening and closing characteristics of breaker and the dynamic stress distribution of closing putters are investigated. The results are verified by experiments. It is indicated that this contact system can improve the short-time withstand capacity. The research could provide theoretical references to large-capacity medium-voltage air direct current circuit breaker development.

[1] Fei Yang,et al. Investigation on Arc Behavior During Arc Motion in Air DC Circuit Breaker , 2013, IEEE Transactions on Plasma Science.

[2] Fei Yang,et al. Numerical analysis of arc plasma behaviour during contact opening process in low-voltage switching device , 2007 .

[3] Pierre Freton,et al. Advances in low-voltage circuit breaker modelling , 2004 .

[4] K. D. Srivastava,et al. Analysis of a Fast Acting Circuit Breaker Mechanism, Part II : Thermal and Mechanical Aspects , 1972 .

[5] N. K. Myshkin,et al. Electrical Contacts: Fundamentals, Applications and Technology , 2006 .

[6] Yi Wu,et al. Simulation Study of the Influence of Wall Ablation on Arc Behavior in a Low-Voltage Circuit Breaker , 2009, IEEE Transactions on Plasma Science.

[7] Yoshihiro Kawase,et al. 3-D finite element analysis of electrodynamic repulsion forces in stationary electric contacts taking into account asymmetric shape , 1997 .

[8] Fei Yang,et al. Numerical analysis of the influence of splitter-plate erosion on an air arc in the quenching chamber of a low-voltage circuit breaker , 2010 .

[9] Soohyun Kim,et al. Modelling and analysis of a high-speed circuit breaker mechanism with a spring-actuated cam , 2001 .