The W-type yoke silicon steel sheet adopts the 120-oriented silicon steel sheet of WISCO or Baosteel. It is evenly stressed by the rail bolts, supports the coils evenly from all directions, provides the maximum pressure holding force to the coils, and ensures a long working life of the furnace lining.
The yoke is a unique design without water cooling and adopts wind cooling, so it can protect it from any hidden danger of water leakage.
The yoke body requires no maintenance, and the number of hose connections is half of that of the conventional yoke, which reduces maintenance costs and improves maintenance efficiency.
Unique shock-absorbing, top-solid magnetic yoke structure. The solid magnetic yoke and the upper and lower short-circuit valves guide and gather the induction magnetic field into the molten pool. This design eliminates the induction heating of the furnace body and the metal objects outside the furnace, which can greatly reduce the magnetic leakage, improve the melting efficiency, and improve the melting efficiency. Energy saving.
At the same time, the leakage magnetic field data of the working environment is maintained below an acceptable value, providing reliable protection against magnetic field exposure for operators.
The W-type yoke silicon steel sheet adopts the 120-oriented silicon steel sheet of WISCO or Baosteel. It is evenly stressed by the rail bolts, supports the coils evenly from all directions, provides the maximum pressure holding force to the coils, and ensures a long working life of the furnace lining.
The yoke is a unique design without water cooling and adopts wind cooling, so it can protect it from any hidden danger of water leakage.
The yoke body requires no maintenance, and the number of hose connections is half of that of the conventional yoke, which reduces maintenance costs and improves maintenance efficiency.
Unique shock-absorbing, top-solid magnetic yoke structure. The solid magnetic yoke and the upper and lower short-circuit valves guide and gather the induction magnetic field into the molten pool. This design eliminates the induction heating of the furnace body and the metal objects outside the furnace, which can greatly reduce the magnetic leakage, improve the melting efficiency, and improve the melting efficiency. Energy saving.
At the same time, the leakage magnetic field data of the working environment is maintained below an acceptable value, providing reliable protection against magnetic field exposure for operators.