Back-Tilting: Electrotherm is offering a Back-tilting arrangement to remove the slag in the reverse position. It is normally used in foundries.
Double Acting Fume Hood: The fume extraction hood builds from boiler quality thick steel sheet is refractory lined from inside and integrated with a refractory lined lid. It can open from both the front and back end of the furnace to facilitate pushing out of the lining and furnace charging respectively. It has sturdy construction to endure a tough melt vicinity environment.
Swivel Type Furnace Lid: Manually / hydraulically operated swivel type furnace lid is useful for reducing radiation loss and save energy during the melting and holding process. The fume extraction ring with a furnace lid ensures that the smoke and fumes generated during melting do not escape outside.
Lining Push Out: We own a modernized and well-coordinated manufacturing unit that has enabled us to provide the clients with Lining Push Out. This offered machine is appreciated by our patrons for the smooth and quick removal of refractory lining. To rule out the possibility of any defects, we thoroughly check this product on various parameters such as material strength and performance. We offer this machine in different models to fulfill the requirements of our patrons. The lining push-out system is hydraulically powered and is designed for smooth and quicker removal of the refractory lining by applying even pressure on the refractory sidewalls.
Load Cell: Furnace load cells enable accurate recording of the weight of charge material and liquid metal in the furnace resulting in simplification of weight calculations related to charging, alloy addictions, and metal tapping. Can be linked to PMA 100 or SPA 100 for continuous reading and monitoring of weight of the liquid metal in the furnace.
Vibratory Charging System: The vibratory feeder is mounted on a trolley that moves on rails to feed the furnace. A sturdily built hopper receives and stores the charge material to be fed to the furnace. The feeder vibration ensures that the charge is well spread in the feeder and moves uniformly and smoothly into the furnace. The feeder at a suitable frequency is achieved by unbalanced motors. The design ensures keeping the noise level at a minimum during the charging process. The feeder movement from the charge loading point to the melting furnace is smooth. Power cable drag is strong and well designed to achieve longer life.