SU1399628A1 - Combustion furnace - Google Patents

Abstract

The invention relates to flame furnaces for heating and heat treating a metal and can be used in the metallurgical and engineering industries. The goal is to increase the stability of the torch burning in the furnace working space and the uniform heating of the metal. The furnace contains a device for adjusting the shape and length of the torch, which is rectangular bimetallic plates rigidly fixed on a steel ring placed on the inner surface of the masonry, and with a burner tunnel a single cylindrical surface, and a material with a smaller linear expansion coefficient is oriented towards the axis of the tunnel. The ratio of the base of a bimetallic plate fixed on the ring to the height and diameter of the burner tunnel is respectively 1: (10–15) :( 12–18). 2 Il.

Description

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The invention relates to heating devices of metallurgical and machine-building plants and can be used to heat a metal before further deformation and under heat treatment,

The purpose of the invention is to increase the stability of the flame burning and the uniform heating of the metal.

FIG. 1 shows the proposed fiery furnace, a transverse section; in fig. 2 is a view A of FIG. one.

In the masonry of the furnace 1, there is a burner 2 with a burner tunnel 3 and a ring 4 with rigidly fixed and evenly spaced fans on its inner forming | bimetallic plates 5, forming a torch in the working space 6 of the furnace. The dimensions of rectangular bimetallic: plates made, for example, of them i and chrome, are chosen in such a way that: the ratio of the smaller fixed base of the rectangle to the larger and to the tunnel diameter is respectively: 1: (10- 15): (12-18). If this ratio is less than 1:10:12, then due to the slight deflection of the bimetallic plates towards the axis of the torch, its parameters are not fully controlled and the condition of the gas-air flow at the tunnel exit worsens. If the ratio is greater than 1:15:18, then the length of the plates unnecessarily increases, which leads to a deterioration of the hydraulic mode in the furnace working space due to the development of a long torch and additional energy costs for its formation.

The furnace works as follows.

: When firing a bimetallic burner: plates installed parallel to the axis i of the tunnel, form the conditions under which the maximum angle of opening of the flame and its minimum length are observed. In this case, the high temperature plume core (1000 ° C) is located directly at the bimetallic plates, as a result of which

are heated and begin to bend toward the axis of the tunnel. At the same time, the overlapping of the exit section of the tunnel with the plates leads to a change in the torch parameters, i.e. its length and opening angle, so that the core of high temperatures moves away from the bimetallic plates and the temperature of the latter is removed at 70-110 ° C, which leads to a decrease in the amount of deflection of the plates and a new change in the geometric parameters of the torch. In this way, the flame is controlled in the working space of the fiery furnace.

The use of the proposed furnace makes it possible to stabilize the combustion of the torch, leading to an increase in the overall temperature level of the furnace, which makes it possible to reduce the fuel consumption for heating the metal by 5-7%.

Claims (1)

Invention Formula A flame furnace containing a lined working chamber, a burner with a burner tunnel for supplying the gas-air flow and additional energy carrier and a device for controlling the flame, characterized in that, in order to increase the stability of the flame and the uniform heating of the metal, the device for controlling the flame is made in the form of a flat a steel ring placed on the inner surface of the lining and flat bimetallic rectangular plates evenly spaced and rigidly fixed on the inside with a fan forming a ring at a right angle to its plane with the plates partially overlapping each other, the ratio of the base of the rectangular plates to their height and the diameter of the mountain tunnel is respectively 1: (10-15): (12-18), the plates form a single cylindrical surface with the burner tunnel, and the plate material with a lower linear expansion coefficient is located on its inner side. fa, g.1 View / I (M2-f}