KR20080057106A - Walking beam apparatus of reheating furnace - Google Patents

Abstract

A low temperature zone-shielding type moving beam device of a reheating furnace is provided to effectively prevent a drop of temperature in the reheating furnace as a whole by simultaneously inflow of external air according to operational failure of a water seal box and dividingly shielding an inner part of the reheating furnace and a low temperature zone in the circumference of bottom openings of the reheating furnace through which moving beams move to move a workpiece such as a slab. A low temperature zone-shielding type moving beam device of a reheating furnace comprises: moving beam posts(172) vertically disposed through openings(154) formed in a bottom(152) of the reheating furnace body; moving beams(170) horizontally extending from top parts of the posts to move a workpiece within the reheating furnace; and a low temperature zone shielding part(1) which extends from the moving beam posts to shield a low temperature zone(A) in the circumference of the bottom openings even during the operation of the moving beams along the opening direction of the bottom openings, and which is installed aslope to separate a scale. The low temperature zone shielding part includes: an inner pipe(10) which is slantly connected and fixed to the moving beam posts such that the inner pipe communicates with an inner pipe(172b) of the moving beam posts, and which extends in the opening direction of the bottom openings to cover the bottom openings; and a refractory body(30) for covering an outer wall of the inner pipe. The low temperature zone shielding part additionally includes an auxiliary refractory body(32) formed on the refractory body and a post refractory body of the low temperature zone shielding part to cover the bottom openings more securely.

Description

Low Temperature Zone Shielding Moving Beam Apparatus of Heating Furnace {Walking Beam Apparatus of Reheating Furnace}

1 is a schematic view showing a typical heating furnace

2 is a detailed view showing a fixed beam and a moving beam of a heating furnace;

Figure 3 is a detailed view showing the structure of the furnace skid beam

4 illustrates a moving beam of a conventional heating furnace,

(a) is a schematic diagram

(b) a plan view

5 is a view showing a low-temperature region shielding moving beam device of a heating furnace according to the present invention,

(a) is a schematic diagram

(b) a plan view

Explanation of symbols on the main parts of the drawings

1 .... low temperature zone shield 10 .... pipe

30 .... refractory 32 .... auxiliary refractory

100 .... Furnace 154 .... Floor opening

170 .... Moving Beam 172 .... Moving Beam Post

190 .... Water Seal Box

The present invention relates to a low-temperature area shielded moving beam device of a heating furnace, and more particularly to the low-temperature area around the opening of the bottom of the heating furnace and the inside of the heating furnace to which the moving beam for material movement of the slab moves in the heating furnace. In addition to shielding the compartments, it also prevents the inflow of external air due to poor operation of the water seal box, effectively preventing the temperature drop in the furnace as a whole, and inflowing the bottom opening of the scale generated from materials such as slabs. It relates to a low-temperature area shielded moving beam device of a heating furnace to prevent.

In general, in the hot rolling process of steel mills, a heating furnace is used to heat a rolled material such as a slab produced in a casting process.

That is, the management of the metallurgical conditions, dimensions and appearance of the corresponding specification of the rolled material is actually done in the rolling line, but for more accurate management, the heating furnace heats the material to the desired heating temperature, as well as the material. Naturally, uniform heating in the length and width directions is a critical quality control factor.

This is because the uniform heating reduces the variation of the material in metallurgy and the thickness deviation in terms of dimension control.

1 shows the overall structure of a known heating furnace.

That is, as shown in Figure 1, the heating furnace 100 is continuously arranged from the charging side to the extraction side in the furnace body 150, the loading slab (S) to be heated thereon is mounted on the skid beam That is, the fixed beam 160 and the moving beam 170 are disposed.

Accordingly, while the slab S and the like loaded in the heating furnace 100 are heated as shown in FIG. 2, the moving beam 170 raises, moves forward, and descends the slab S seated on the fixed beam 160. And a series of operations of reversal to move stepwise from the furnace charging side to the extraction side.

The fixed beam 160 and the movable beam 170 include posts 162 and 172, respectively, and the movable beam 170 that performs a series of operations of the ascending, forward, descending, and reverse movements. It is a structure connected to the movable beam (unsigned) through the opening 154 of the bottom of the furnace 152.

On the other hand, as shown in Figure 1, the inner space of the heating furnace 100, such as the direction in which the skid beam 170 passes, the furnace entrance, charging zone (charging zone) 110, preheating zone (preheating zone) 120, a heating zone (130) and a soaking zone (soaking zone) (140).

Accordingly, the temperature rise rate and residence time in the charging zone, preheating zone, heating zone and residence time in the cracking zone are controlled according to the initial temperature of the charging slab S and the final temperature required for extraction. do.

And each control zone is equipped with the burner B1 (B) of the side and nose part side for temperature rising, heating, and a crack.

Meanwhile, as shown in FIG. 3, the skid beams of the fixed beam 170 and the moving beam 160 are refractory materials 160a and 170a to pipe materials 160b and 170b through which cooling water flows in order to resist high temperatures in the furnace. Is covered, the skid buttons (160c, 170c) is installed on the site where the lower surface of the slab which is seated on each beam is in contact with the refractory body.

On the other hand, Figure 4 shows the installation structure of the heating furnace of the conventional moving beam in more detail.

That is, as shown in FIGS. 4A and 4B, an opening 154 is formed in the bottom of the heating furnace 152 corresponding to the moving width of the moving beam 160 and vertically passing through the post 162. A water seal box 190 is disposed under the 154 to block the inflow of external air, thereby cooling the moving beams, and baffles 192 are disposed on both sides of the moving beam posts of the water seal box 190. .

In this case, the pipes through which the refractory body and the internal cooling water of the moving beam 170 and the lower post 172 flow are respectively shown as shown in FIG. 3.

On the other hand, the water seal box 190 is filled with water (W), the bottom opening 154 is positioned directly above the position, and the baffle 192 submerged in water serves to block the inflow of external air. do.

However, in the conventional moving beam 170 as described above, since the post 172 portion is in the form of a straight line passing through the bottom opening 154, the water filled in the water seal box 190 around the bottom opening, in particular. There was a problem that the internal temperature of the furnace falls by the low temperature region 'A' formed by.

In addition, since the bottom opening 154 is exposed, the scale falling from the slab S falls into the filled water of the water seal box 190, and thus there is another problem to be removed.

In this case, reference numeral 180 in FIG. 1 is a sensor for measuring a low temperature (thermocouple).

Accordingly, the structure of the low temperature region shielded moving beam of the heating furnace which blocks the inflow of the water seal box of the scale while suppressing the temperature drop in the furnace by the low temperature region by blocking the bottom opening to improve the structure of the moving beam. Has been required.

The present invention has been made in order to solve the various problems of the prior art as described above, the object of the present invention is to move the moving beam for moving the material, such as slab in the heating furnace in the low temperature area around the opening of the bottom of the heating furnace The present invention provides a low-temperature area shielded moving beam apparatus of a heating furnace that not only blocks the inside but also suppresses the inflow of external air due to a malfunction of the water seal box and effectively prevents a temperature drop in the heating furnace as a whole.

As a technical configuration for achieving the above object, the present invention comprises a post disposed vertically through the bottom opening of the heating furnace and a moving beam for moving the material in the heating furnace while extending horizontally thereon; And,

A low temperature region shielding portion extending to shield the low temperature region around the bottom opening even when the movable beam moves along the opening of the bottom opening in the moving beam post and inclined to separate the scale;

It provides a low-temperature area shielded moving beam device of a heating furnace configured to include.

Preferably, the low temperature zone shielding portion, the inner pipe to be inclined connected to the inner pipe of the moving beam post, extending in the bottom opening opening direction completely covering at least the bottom opening, and the fireproof covering the outer pipe of the inner pipe Sieve.

Here, the refractory body and the post refractory body of the low temperature region shielding part may further include an auxiliary refractory body shielding the bottom opening side portion.

Preferably, the low temperature region shielding portion is preferably inclined to extend at least twice the length of the bottom opening so as to completely shield the bottom opening when the moving beam moves forward, downward, backward, and ascend.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

5A and 5B illustrate a low-temperature region shielding moving beam device of a heating furnace according to the present invention in a structural diagram and a plan view.

First, as shown in FIGS. 5A and 5B, the low-temperature region shielded moving beam apparatus of the heating furnace of the present invention includes a post 172 disposed vertically through the furnace bottom opening 154 and horizontally thereon. The moving beam 170 for moving the material in the heating furnace and the moving beam post 172 along the open portion of the bottom opening 154 in the heating furnace, even when the moving beam is operated, It is characterized in that it comprises a low-temperature region shielding portion (1) is extended to the shielding and installed inclined for the deviation of the scale.

Therefore, in the moving beam apparatus of the present invention, the moving beam 170 is responsible for the movement of the slab S, which is a normal function inside the heating furnace.

As described above, the moving beam 170 includes a post 172 passing through the opening 154 of the bottom of the heating furnace 152 and the water seal box 190, and the post moves forward in a vertical state. The slab moves in the furnace by descending, reversing and raising a series of operations.

The shield 1 of the present invention shields the low temperature region 'A' adjacent to the water seal box 190 and the middle temperature region 'B' at the bottom of the furnace bottom 152 in FIG. The temperature of the internal high temperature region 'C' serves to suppress the temperature drop caused by at least the low temperature region or the middle temperature region.

At this time, as shown in Figures 5a and 5b, the cold zone shielding portion 1 of the present invention is connected inclined inclined so as to communicate with the inner pipe 172b of the moving beam post 172, opening the bottom opening And an inner pipe 10 extending in a direction and completely passing through at least the bottom opening, and a fireproof body 30 covering the outer portion of the inner pipe 10.

On the other hand, the low temperature region shielding portion 1 in more detail, as shown in Figure 5a, the length 'L1' of the shielding portion 1 is one length of the bottom opening 154, that is, the low temperature space length ' It is desirable to stretch more than twice longer than L0 ', which will not only increase the shielding of the cold zone, but also effectively prevent the scale falling from the slab from accumulating on the bottom opening side or entering the water seal box through the bottom opening. .

In addition, the shield 1 is preferably installed to be inclined at an appropriate angle 'θ' in the moving beam post, which suppresses accumulation of the scale dropped from the slab on the shield, and more smoothly at the bottom side (opening part). Will be dismissed).

At this time, the inclination angle θ of the shielding part is preferably between 40 ° and 50 °. If the angle is smaller than 40 °, the inclination degree of the shielding part 1 is weak, and scale may accumulate on the shielding part 1. .

On the contrary, when the angle is larger than 50 °, a problem that affects shielding property may occur due to a great inclination angle.

Next, as shown in FIGS. 5A and 5B, as shown in FIG. 5B while integrally covering the refractory body 30 of the low temperature region shield 1 and the refractory body of the moving beam post 172, the bottom opening ( It is preferable that the auxiliary refractory body 32 which shields the side of 154 is further provided.

That is, since the moving beam post 172 repeats the operation of moving the moving beam forward, downward, backward, and rising, a tolerance is formed between the moving beam post and the bottom opening in the width direction as well as in the longitudinal direction of the bottom opening. Therefore, the auxiliary refractory body 32 may be shaped to cover the bottom opening from the side when viewed from above.

Meanwhile, in FIG. 5A, the upper moving beam 170 of the post 172 is positioned about 2 m above the actual floor, and the shield 1 is positioned almost immediately above the bottom opening 154.

For example, the post 172 of the moving beam 170 is raised and lowered by about 10-15 cm when the moving beam is raised and lowered, and moves about 60-70 cm through the bottom opening when moving forward and backward. The shield 1 may be spaced at least about 20 cm from the floor.

In addition, in FIG. 5B, the shield 1 includes the auxiliary refractory body 32 in a rectangular shape. However, the auxiliary refractory body 32 may be formed in an elliptical shape to increase the shielding property at a lower temperature region. .

According to the low-temperature zone shielding type moving beam apparatus of the present invention, the low-temperature zone around the opening of the bottom of the furnace and the inside of the furnace to move the moving beam for moving the material such as the slab in the heating furnace. Of course, it also provides an excellent effect that can effectively prevent the temperature drop in the furnace as a whole by suppressing the inflow of external air due to the water seal box malfunction.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

Claims (4)

A moving beam configured to move the material in the heating furnace while being vertically arranged on the post and vertically disposed above the heating furnace bottom opening; And A low temperature region shielding portion extending to shield the low temperature region around the bottom opening even when the movable beam moves along the opening direction of the bottom opening in the moving beam post and inclined to separate the scale; Low temperature zone shielding type moving beam apparatus of a heating furnace comprising a. According to claim 1, wherein the cold zone shielding portion is connected to the inner pipe of the moving beam post inclined inclined and extending in the opening direction of the bottom opening to cover the bottom opening; And, A fireproof body covering an outer portion of the inner pipe; Low-temperature zone shielding moving beam device of the heating furnace, characterized in that consisting of. The low temperature region shielded moving beam apparatus of claim 2, wherein the refractory body and the post-fireproof body of the low temperature region shielding portion are further provided with an auxiliary fireproof body that more reliably shields the bottom opening. The method of claim 1, wherein the low temperature zone shielding portion is at least twice the length of the bottom opening so as to completely shield the bottom opening when the moving beam moves forward, downward, backward, and rise. Low-temperature region shielded moving beam device of the heating furnace, characterized in that extended.

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