Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Macrocrystalline fused magnesite smelting furnace
The invention discloses a macrocrystalline fused magnesite smelting furnace and particularly relates to a fused magnesite smelting furnace with a filling device. A fused magnesite smelting furnace body comprises a furnace body, electrodes and a rail platform, wherein stock bins are arranged on two sides above the furnace body; thermal conductive plates are arranged in the stock bins; material distribution pipes are mounted in sleeves in a sleeving manner. The working method of the fused magnesite smelting furnace is as follows: powder is scattered in the furnace body through the material distribution pipes to realize automatic filling. Leaking holes in the thermal conductive plates enable powder in the stock bins to complement each other, so that material in each stock bin grid is enabled to be uniform. As the stock bins are arranged above the furnace mouth, and high-temperature smoke discharged from the furnace mouth heats the shells of the stock bins, the raw material in the stock bins is heated; therefore, the raw material with a certain temperature enters the furnace body, the smelting time is shortened, and the consumption of electric energy is reduced. As the stock bins are arranged, the labor intensity of workers is greatly reduced, and potential safety hazards during operation are eliminated. In addition, as the raw material is distributed uniformly, the raw material reduction is more sufficient, the quality of the finished product is improved, and the problems of the existing equipment are solved.
Macrocrystalline fused magnesite smelting furnace
The invention discloses a macrocrystalline fused magnesite smelting furnace and particularly relates to a fused magnesite smelting furnace with a filling device. A fused magnesite smelting furnace body comprises a furnace body, electrodes and a rail platform, wherein stock bins are arranged on two sides above the furnace body; thermal conductive plates are arranged in the stock bins; material distribution pipes are mounted in sleeves in a sleeving manner. The working method of the fused magnesite smelting furnace is as follows: powder is scattered in the furnace body through the material distribution pipes to realize automatic filling. Leaking holes in the thermal conductive plates enable powder in the stock bins to complement each other, so that material in each stock bin grid is enabled to be uniform. As the stock bins are arranged above the furnace mouth, and high-temperature smoke discharged from the furnace mouth heats the shells of the stock bins, the raw material in the stock bins is heated; therefore, the raw material with a certain temperature enters the furnace body, the smelting time is shortened, and the consumption of electric energy is reduced. As the stock bins are arranged, the labor intensity of workers is greatly reduced, and potential safety hazards during operation are eliminated. In addition, as the raw material is distributed uniformly, the raw material reduction is more sufficient, the quality of the finished product is improved, and the problems of the existing equipment are solved.
Macrocrystalline fused magnesite smelting furnace
CUI FENGHAI (Autor:in) / GANG YONG (Autor:in) / GANG CHONG (Autor:in) / DING WUCHANG (Autor:in)
29.07.2015
Patent
Elektronische Ressource
Englisch
IPC:
C04B
Kalk
,
LIME
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