SU1397489A1 - Regenerative furnace - Google Patents

Abstract

This invention relates to ferrous metallurgy, in particular to the design of regenerative gas or air heaters. The purpose of the invention is to increase the reliability of the structure and simplify its maintenance. When heating the air heater, the fitting 2 hot blowing due to thermal expansion will move relative to the duct 11 only by the amount of temperature lengthening of the dome section t from the annular box-shaped beam 3 to fitting 2, and the movements of the chamber 4 of the nozzles will occur downwards. The location of the columns of cl; with; about vl 4 00 with SH

Description

8 with a gap in relation to the chamber 4, will allow compensating for the radial thermal displacement of the latter. The application of the invention will reduce the downtime of the blast furnace for repairs to the places of abutment of the hot air duct to the stove and also increase the reliability of the design. 2 yl

one

The invention relates to ferrous metallurgy, namely, to designs of regenerative gas or air heaters, as well as to devices for compensating temperature deformations of heater heaters relative to the air duct to blow.

The aim of the invention is to increase the reliability of the design and simplify its maintenance.

Fig. 1 shows a regenerative heater with an air duct blowing hot, Fig. 2 shows section A-A in Fig. 1.

The regenerative heater contains a lined dome 1 with a hot air nozzle 2, an annular box girder 3, to which the lined chamber 4 of the nozzle adjoins the bottom. The lined chamber 4 has a rigid bottom 5, which perceives internal pressure in the chamber. Pipelines 6 and 7 are supplied to the bottom 5 from the bottom for flue gas removal and cold supply; On columns 8 through an annular box-shaped beam 3, the supports are lined; the dome 1 and the lined chamber 4 of the nozzle with a rigid bottom 5 are suspended from the annular box girder 3. Columns 8 are located in plan with a gap about the nozzle chamber 4, and the bottom 5 of the latter is located vertically with a gap b relative to the foundation 9. Pipeline 6 for removal The flue gases in the place of its attachment to the dymovuyu boar have a sappnik pick-up device 10. To the nozzle 2 there is an air duct 11 connected to a hot blow.

At the operational warming up; air heater fitting 2 hot blowing due to thermal expansion will move relative to the air pipe 11 only by the amount of temperature lengthening of the dome section

five

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five

0

five

1 from the annular box girder 3 to the nipple 2, and the movements of the lined chamber 4 and the rigid bottom 5 will occur downwards, and these movements will cause the vertical movements of pipelines 6 and 7 to remove flue gases and supply cold blowing. The movements of the pipeline 6 for flue gas removal are compensated for by a gland compensation device 10, and the non-lined pipeline 7 for supplying a cold blow is due to its own self-compensation.

Thus, the vertical temperature displacement of the choke 2 is hot, blowing about the air duct 1 1 itself does not depend on the operating temperatures of the heater and the requirement for their compensation is no longer necessary. In addition, the junction of pipelines to the bottom from the bottom along its axis allows. to improve the distribution of the gas flow in the chamber with the nozzle, which increases the efficiency of the heater.

The application of the invention will reduce downtime of the furnace for repairs of places adjacent to the hot-air choke fitting to the air heater casing: reduce operating costs by maintaining the spring hangers by reducing the cost of the heater when replacing expensive spring supports of the hot air duct with columns.

Claims (1)

Invention Formula Regenerative heater containing a lined dome, lined chamber with a rigid bottom, choke hot blow, supporting columns, characterized in that, in order to increase the reliability of the design and simplify its maintenance, the regenerative heater is equipped with a ring box-shaped beam to which The chamber of the nozzle is suspended from below, and the lined dome is supported on it with a hot-blowing choke integrated into it, while the box beam is supported on columns with a clearance in relation to the cambered nozzle. Aa FIG. 2