RU7736U1 - MELTING FURNACE - Google Patents

Abstract

A melting furnace comprising a casing with an inner layer of thermal insulation, a heating chamber and a crucible placed in it, characterized in that two channels are made in the vertical part of the casing, in the lower of which a burner is connected to the fuel tank.

Description

MELTING FURNACE

The utility model relates to the field of non-ferrous metallurgy, namely, to designs of crucible furnaces for melting metals.

Known induction furnace for smelting metals and alloys, containing a housing, a crucible made of refractory material, covering its inductor and a power source, the inductor made in the form of a screw channel and connected to a power source (1).

The disadvantage of this technical solution is the complex design of the furnace and the high energy intensity of the melting process.

Closest to the alleged technical essence is a melting furnace containing a casing including a casing with an inner layer of thermal insulation (lining), a heating chamber filled with molten metal salts, a crucible located in it, and electrodes installed in the lining of the walls with an outlet to the heating chamber (2 )

The disadvantage of this device is the large inertia of the furnace, high energy consumption and low safety as a result of the strong evaporation of metal salts.

The task is to develop a melting furnace, which contains the simplicity of the design using cheap energy.

This problem is solved in that the melting furnace, comprising a housing made in the form of a casing with an inner layer of thermal insulation, a heating chamber and a crucible placed in it, has two channels in the vertical part of the housing, and a burner for liquid fuel is installed in the lower channel.

The drawing shows a General view of the furnace, a vertical section.

The melting furnace comprises a housing 1, thermal insulation 2, a heating measure 3, and a crucible 4 located therein. Channels 5 and 6 are made in the vertical wall of the housing, with a burner 7 installed in the lower channel 5 and connected to the fuel tank 8 via a pipe 9.

MKI F 27 at 14/00

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The furnace operates as follows.

The crucible is heated using the flame of the burner 7 from burning a mixture of air and liquid fuel, for example, diesel supplied from the tank 8. The required temperature is maintained using a thermocouple 10 through the control unit 11, which automatically turns the burner on and off 7. The combustion products exit chamber 3 through the upper channel 6, which plays the role of a chimney.

Thus, the proposed furnace with the simplicity of the design through the use of cheap fuel allows to increase the economic e (| x |) efficiency of the metal smelting process by 5 times in comparison with the known furnaces ,,.

General Director of LLP

A.A. Zemtsov

Sources of Inhormation

1.A.S. USSR 1043455 cells F 7 V I4 / OC, I98E,

2.A.S. USSR I3I3088 class F 27 B 14/00, 1985.

Claims (1)

A melting furnace comprising a casing with an inner layer of thermal insulation, a heating chamber and a crucible placed in it, characterized in that two channels are made in the vertical part of the casing, in the lower of which a burner is connected to the fuel tank.