KR20100047005A - Preheating zone structure in heating furnace - Google Patents

Abstract

PURPOSE: A preheating zone structure of a furnace is provided to reduce a heating waiting time of a furnace by concentrating a gas on the upper side of a slab. CONSTITUTION: A preheating zone structure of a furnace comprises a noise portion(7) and a guide wall(10). The noise portion is arranged as heating between the preheating zone and heating zone. The noise portion comprises a combustion burner(3). A combustion burner heats a loaded slab(2). The guide wall induces the combustion gas created from the combustion burner to slab.

Description

Preheating zone structure in heating furnace

The present invention relates to a preheating structure of a heating furnace, and more particularly to a preheating structure of a heating furnace to improve the preheating efficiency of the slab charged into the heating furnace by improving the internal structure of the heating preheating zone.

In general, a continuous casting machine is a facility for producing cast steel, that is, a semi-finished product for rolling, by receiving a molten steel produced in a steelmaking furnace and transferred to a ladle from a tundish and then supplying the mold to a continuous casting machine. .

The continuous casting machine is connected to the continuous casting machine mold and the continuous casting machine mold to form a ladle for storing molten steel, a tumbled dish and a cast steel having a predetermined shape while cooling the molten steel exiting from the tundish; It includes a cooling table for cooling while transporting the cast steel passed through the mold.

That is, the molten steel cast from the ladle and the tundish is passed through the mold for the continuous casting machine, a semi-finished product such as slab or bloom, billet, etc. having an arbitrary width and thickness is manufactured. They are reheated through a heating furnace and then rolled to produce various steel products such as H-beams, rebars, angles, and steel sheets.

On the other hand, the heating furnace is discharged after heating the slab, bloom, billet and the like with a burner while moving from the inlet side to the outlet side through the working beam device.

The configuration of a conventional heating furnace will be briefly described with reference to FIG. 1. The furnace main body 1 is provided with a skid beam 6 which is arranged continuously from the charging side to the extraction side in the furnace body and on which the charging slab to be heated is seated and transported.

This skid beam 6 is composed of a fixed beam for supporting the charging slab and a walking beam for advancing the charging slab.

While the charging slab is heated in the furnace body 1, the working beam gradually moves from the furnace inlet to the outlet by raising, advancing, lowering and reversing the charging slab.

The interior space of the furnace body 1 is largely along the direction in which the Skeet beam 6 passes, including a furnace entrance, a charging zone, a preheating zone, a heating zone, and a soaking zone. ).

Depending on the initial temperature of the slab 2 and the final temperature required for extraction, the temperature rise rate and residence time in the charging zone, the preheating zone, the heating zone and the residence time in the crack zone are controlled.

A furnace entrance into which the slab 2 is charged through a door (not shown) that is periodically opened and closed, and a charging stand and a preheating table for raising the slab 2 are partitioned by a trimming wall 4 installed on the inner wall of the furnace body. The trimming wall 4 makes it possible to ensure heat retention and uniform furnace temperature in each region.

In addition, a first burner 5 is installed in the charging table to adjust the heating temperature of the charging slab 2 according to the temperature of the preheating table, and the first burner 5 is, for example, located in the preheating table. When the charging slab is hot and the combustion capacity of the combustion burner 3 installed on the preheating chamber is reduced to lower the temperature, when the trailing charging slab located at the charging stand is low, the heating temperature of the trailing charging slab is increased. Allow to heat up to the target pass temperature.

The first burner 5 is typically a regenerative burner.

On the other hand, each region is partitioned between the preheating zone, the heating zone, and the heating zone and the crack zone by the nose portions 7 and 8 formed so that the internal cross-sectional area of the furnace body becomes small.

The nozzles 7 and 8 are formed in such a manner that the combustion burners 3 for heating the respective regions are provided on the inclined surfaces of the noses 7, 8 so that the spraying direction is in the preheating zone, the heating zone, and the cracking zone. It is aimed at the center.

For reference, the combustion burner 3 is generally mainly used as an axial burner.

However, in the conventional heating furnace preheating zone, since the high temperature combustion gas ignited from the combustion burner is spread inside the preheating zone, the efficiency of heating the charging slab is reduced, which leads to a long heating standby time, thereby increasing fuel consumption. In addition, there is a problem that the productivity is lowered.

The present invention has been proposed in view of the above-mentioned problems, and an object thereof is to provide a preheating structure of a heating furnace which can improve the preheating efficiency of the slab by improving the internal structure of the heating preheating table. .

The present invention for achieving the above object is a noise unit which is disposed between the heating preheating zone and the heating zone and the combustion burner is installed to heat the slab charged into the interior,

And a guide wall disposed on the upper ceiling of the heating furnace to guide the combustion gas generated from the combustion burner to the slab side.

The guide wall is formed to extend downwardly perpendicular to the upper ceiling of the preheating zone of the furnace.

The guide wall further includes an extension part having a lower end extending toward an inlet side of the heating furnace to which the slab enters.

The guide wall is arranged at an inclined angle with respect to the upper ceiling of the heating preheating stage.

The lower end of the guide wall is formed to have the same height as the lower end of the noise unit.

The guide wall further includes an auxiliary burner installed to be connected to the combustion burner to heat the slab.

The present invention has been improved in the structure so as to guide the combustion gas generated from the combustion burner to the slab side in the ceiling of the preheater of the heating furnace, according to the present invention the combustion gas ignited from the combustion burner disposed in the noise portion of the slab By concentrating on the upper surface, it is possible to improve the preheating efficiency of the heating furnace preheating stage and to have a useful effect of shortening the heating waiting time of the heating furnace to improve productivity.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals are used for the same components as those of the prior art described above, and redundant descriptions will be omitted.

An embodiment of a preheating structure of a heating roll according to the present invention will be described with reference to FIG. 2, and the structure of the heating roll is charged with a slab inside, a furnace entrance, a charging zone 5, and a preheating table. a heating furnace body 1 divided into a preheating zone, a heating zone, and a soaking zone;

Noise sections 7 and 8 disposed between the preheating zone and the heating zone, and the heating zone and the cracking zone, respectively, and the combustion burner 3 is disposed;

It is arranged to extend downward on the preheat ceiling (9) and consists of a guide wall (10) for guiding the combustion gas generated from the combustion burner (3) of the noise section (7) to the slab (2) side.

In more detail, the guide wall 10 has a structure arranged to extend vertically below the preheat ceiling 10.

The guide wall 10 preferably adopts the same refractory material as the wall in the furnace.

3 is a view showing another example of the guide wall of the present invention, the lower end of the guide wall 10 is further provided with an extension part 15 which is bent toward the charging side and extended horizontally.

The reason for the existence of the extension part 15 is to guide the combustion gas generated from the combustion burner 3 of the noise part to the upper surface side of the slab which is transferred to the preheating side.

 In the above-described embodiments, it is preferable that the lower end of the guide wall 10 is disposed on the same height line as the lower ends of the noise parts 7, 8. This is to prevent interference with the flow of the combustion gas.

In addition, as shown in FIG. 4, the auxiliary burner 20 is connected to the guide wall 10 so as to share fuel with the combustion burner 3 of the noise unit 7 to heat the slab 2. May be further arranged.

This is selectively driven according to the steel type of the slab 2 charged into the preheating zone, and may shorten the heating waiting time of the slab 2 when the auxiliary burner 20 is heated.

Referring to the operation of the present invention having such a configuration as follows.

The preheating structure of the heating furnace according to the present invention is a combustion burner (3) disposed on the inner wall and the noise part of the heating furnace when the slab (2), which is a semi-finished product, is charged into the preheating zone through the furnace inlet and the charging stand of the heating furnace. ) And fuel and oxygen are supplied to ignite to generate combustion gas.

At this time, the combustion burner (3) disposed in the noise portion generates a combustion gas from the ceiling of the heating furnace to the lower side to perform a function of heating the upper surface of the slab (2), in this process the preheat ceiling (9) The guide wall 10 disposed at the side has a function of guiding the combustion gas generated from the combustion burner 3 disposed at the noise section to the upper surface of the slab 2 being transferred.

The guide wall 10 guides the combustion gas generated from the combustion burner 3 of the noise portion disposed between the preheating zone and the heating zone to be concentrated downward along the one surface of the guide wall 10, thereby preheating efficiency of the slab 2. Can improve.

At this time, when the extension part 15 is formed in the guide wall 10, the combustion gas of the upper part of the preheating zone is guided to the upper surface of the slab 2 to be charged, and the combustion gas is directed to the upper surface of the slab 2. Perform the function of concentration.

In addition, the auxiliary burner 20 disposed on the guide wall 10 may be selectively ignited by the operator according to the steel grade and thickness of the slab 2, and the auxiliary burner 20 may be transported to the lower side of the slab 2. By heating, the preheating efficiency of the slab 2 passing through the preheating zone can be improved.

On the other hand, Figure 5 is a view showing another embodiment of the present invention, the other components are the same but the guide wall 10 is formed at an inclined angle from the preheat ceiling (9), unlike the embodiment described above .

In this case, one surface portion of the guide wall 10 is formed to have an inclined surface with respect to the preheating ceiling 9 so as to concentrate the combustion gas generated from the combustion burner 3 of the noise portion toward the slab 2 to be conveyed. The extension part 15 mentioned above may be abbreviate | omitted.

Also at this time, the lower end of the guide wall 10 is preferably arranged on the same height line as the lower end of the noise unit.

1 is a configuration diagram schematically showing a conventional furnace structure.

Figure 2 is a block diagram showing an embodiment of the preheating structure of the heating furnace according to the present invention.

3 is a block diagram showing another example of an embodiment of the present invention.

4 is a view showing a state in which the auxiliary burner of the present invention is disposed on the guide wall.

5 is a block diagram showing another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: heating furnace body 2: slab

3: combustion burner 7, 8: noise part

10: guide wall 15: extension part

20: auxiliary burner

Claims (6)

A noise unit (7) provided with a combustion burner (3) for heating the slab (2) which is disposed between the preheating zone and the heating table and charged into the furnace, And a guide wall (10) disposed on an upper ceiling of the furnace preheater and configured to guide combustion gases generated from the combustion burner (3) to the slab side. The method according to claim 1, The guide wall (10) is a preheating structure of a heating furnace, characterized in that formed to extend vertically downwards to the upper ceiling of the heating preheating table. The method according to claim 2, The guide wall (10) is a preheating structure of a heating furnace, characterized in that the lower end further comprises an extension part (15) extending to the inlet side of the heating furnace to enter the slab (2). The method according to claim 1, The guide wall (10) is a preheating structure of a heating furnace, characterized in that arranged at an angle to the upper ceiling of the heating preheater. The method according to any one of claims 1 to 4, The lower end portion of the guide wall (10) is preheated structure of a heating furnace, characterized in that formed to have the same height as the lower end of the noise portion (7). The method according to claim 5, The guide wall (10) is preheated structure of the heating furnace characterized in that it further comprises an auxiliary burner (20) for heating the slab (2) is installed to be connected to the combustion burner (3).

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