KR101536440B1 - Apparatus for preventing transformation of furnace - Google Patents

Abstract

The apparatus for preventing deformation of a furnace body according to the present invention is a furnace deformation preventing device comprising: a furnace body having fastening holes formed in opposite side walls spaced apart from each other; And a cross pipe which penetrates the inside of the furnace body and has both ends thereof fastened and fixed to the fastening holes of the both side walls so as to fix the wall surface of the furnace body so as to block thermal deformation of the furnace body wall surface.
As described above, according to the present invention, since the cross pipe, which passes through the inside of the furnace body and has both ends thereof fastened to and fixed to the fastening holes of the both side walls of the furnace body, is supported by the cross pipe to fix the position of the furnace body wall, Thermal deformation can be prevented.

Description

[0001] Apparatus for preventing transformation of furnace [0002]

The present invention relates to an apparatus for preventing deformation of a furnace body, which is capable of preventing thermal deformation of a furnace wall by supporting a furnace wall face by means of a cross pipe.

Generally, hot rolled coils are used in pickling and cold rolling processes (PCM), continuous annealing process (CAL), electrogalvanizing process (Electrolytic Galvanizing Line, EGL) .

That is, as shown in FIG. 1, before the production of the product, the strip 1 is fed to the winding machine 10, the welder 20, the clean line 30, the front storage tower 41, the annealing furnace 50, The rear storage tower 42, the temper rolling mill 60, the side trimmer 70, the Euler 80 and the winder 90 are sequentially disposed.

At this time, in the pickling and cold rolling process, scale and surface generated in hot rolling remove water through a pickling process and cold rolling is performed to a thickness required by the customer.

Then, the cold rolled coils (the strip is wound) become full hard with a considerably reduced material due to work hardening and dislocation increase. These coils are subjected to a annealing process in order to impart processability according to the customer's intention. This process corresponds to a continuous annealing process.

1, the annealing furnace 50 includes a preheating section (PS) 50a for preheating the strip 1, a radiant tube 50a for heating the strip 1, A heating section (HS) 50b for raising the temperature to 800 ° C or higher, a soaking section (SS) 50c for cracking at a high temperature of 800 ° C or higher, A rapid cooling section (SCS) 50d, a rapid cooling section (RCS) 50e for dropping the temperature of the strip by air cooling to the aging temperature, an over aging section (Over Aging Section, OVS) 50f, and finally a final cooling section (FCS) 50g for cooling at room temperature.

Here, the heating section 50b, which is managed at a temperature of 850 占 폚 or more, is composed of a huge furnace furnace having a width of 2.7 m, a length of 19.9 m and a height of 22.3 m.

At this time, although the wall surface of the furnace is insulated by a ceramic insulating wool of 250 mm, the temperature of the outside wall temperature of the furnace is substantially raised to 222 ° C., and when the burner is stopped during repair or planned stop, the furnace falls to room temperature.

In the case of a long-term furnace over 20 years old, the accumulation of thermal deformation at the central portion of the furnace without supporting structure is inevitable.

In the case of a substantially continuous annealing process, the side walls of both sides of the furnace were 55 mm in the work side direction and 83 mm in the drive side direction at the original design position. That is, since the internal temperature of the furnace is changed to a large temperature difference between a high temperature and a low temperature, the both side walls are periodically bent to the inside and outside, resulting in thermal deformation.

Such a deformation of the furnace causes a crack in the casing connection welded portion, so that the heat is released between the cracks, and the outflow of the atmosphere-maintaining hydrogenated gas for preventing oxidation of the strip inside the furnace occurs, which is a waste in terms of production and cost There is also a high risk of human accidents in terms of safety accidents.

SUMMARY OF THE INVENTION The present invention has been devised in order to solve the above problems, and it is an object of the present invention to provide a deformation prevention device for a deodorant body having a cross pipe penetrating the inside of the deodorization body and having both ends thereof fastened and fixed to the respective fastening holes on both side walls of the non- There is a purpose.

In order to accomplish the above object, according to a preferred embodiment of the present invention, there is provided a furnace deformation prevention device comprising: a furnace body having fastening holes formed on opposite side walls thereof facing each other; And a cross pipe which penetrates the inside of the furnace body and has both ends thereof fastened and fixed to the fastening holes of the both side walls so as to fix the wall surface of the furnace body so as to block thermal deformation of the furnace body wall surface.

Specifically, the cross pipe comprises: an inner cylinder in which air is air-cooled while the outside air passes; And an outer tube surrounding the inner tube and having a water-cooled tube wound on the outer surface thereof.

Here, the outer tube may be disposed so as to surround the inner tube, and the cross pipe may further include a refractory filled between the inner tube and the outer tube.

At this time, the refractory material is preferably ceramic wool.

The outer tube may be formed with a spiral groove on the outer surface so that the water-cooled tube is spirally inserted and wound.

On the other hand, it is preferable that the furnace body is a furnace body of the heating section which is heated by the radiant heat of the radiant tube built in the annealing furnace.

In addition, the cross pipe may be disposed in two spaces below the anti-skid rollers, which are spaced apart from each other in the direction of travel of the strip at the top of the heating section furnace.

The apparatus for preventing deformation of the furnace body according to the present invention includes a cross pipe which penetrates the inside of the furnace body and has both ends thereof fastened and fixed to the respective fastening holes of both side walls of the furnace body so that the furnace body wall face is supported by the cross pipe So that it is possible to prevent thermal deformation of the wall surface of the furnace body.

Fig. 1 is a schematic view showing a process line in which a strip passes through a hot rolling process and before a product is produced.
2 is a perspective view schematically showing a cross pipe according to a preferred embodiment of the present invention in a heating section furnace in the continuous annealing step of FIG.
Fig. 3 is a vertical sectional view schematically showing a cross pipe disposed inside the heating section of Fig. 2. Fig.
Figure 4 is a side view of the cross pipe of Figure 3;
Fig. 5 (a) is a cross-sectional view of the cross-over pipe in Fig. 4, and Fig. 5 (b) is a cross-sectional view of the water-
6 is a cross-sectional view taken along line A-A 'of FIG.

The apparatus for preventing deformation of the furnace body according to the present invention comprises a cross pipe penetrating the inside of the furnace body and having both ends fixedly fastened to the fastening holes of both side wall faces of the furnace body so that the furnace body wall face is supported by the cross pipe, And has a technical feature that can prevent thermal deformation of the wall surface.

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

FIG. 2 is a perspective view schematically showing a cross-pipe according to a preferred embodiment of the present invention in a heating section furnace in the continuous annealing step of FIG. 1, FIG. 3 is a cross- Is a schematic longitudinal section.

The present invention relates to a cross pipe (hereinafter, referred to as " cross pipe ") which is fastened and fixed to both side wall engaging holes 51a of the furnace body 51, 100).

Here, the furnace body 51 is formed with a pair of holes 51a on opposite side walls spaced from each other, and the pair of holes 51a are fastened to the furnace body 51 so that the cross pipe 100 is fixed to the furnace body 51 Section.

It is preferable that the furnace body 51 is a furnace body of the heating section 50b which is heated by the radiant heat of the radiant tube 54 incorporated in the annealing furnace. That is, the cross pipe 100 may be fixed to the furnace body 51 of the heating section 50b in the annealing furnace.

In other words, in the heating section 50b of the annealing furnace, the strip 1 is rapidly heated from 150 to 800 degrees, and when the heater is restored or stopped, the burner operation for supplying the hot gas to the radiant tube 54 is stopped, The temperature rise and fall are repetitively repeated as a large temperature difference inside the furnace body 51 of the heating section 50b and the thermal deformation of the furnace body 51 is increased so that the cross pipe 100 are preferably provided on the furnace body 51 of the heating section 50b.

On the other hand, the cross pipe 100 is fastened to the fastening holes 51a formed on both side wall surfaces of the furnace body 51 so as to penetrate the inside of the furnace body 51 so as to prevent thermal deformation of the wall surface of the furnace body 51 .

Concretely, the cross pipe 100 is formed by inserting one end of the cross pipe 100 into the hole 51a formed in one side wall of the furnace body 51, pushing the cross pipe 100 into the hole 51a And at this time, it is maintained at a predetermined degree in a state where it is spanned over the hole 51a formed in one side wall of the anode body 51 at this time.

Both end portions of the cross pipe 100 which are supported so as to span across the engagement holes 51a of the furnace body 51 are fastened and fixed to the respective side wall surfaces of the furnace body 51 by welding as shown in Fig. . In addition, although the fastening and fixing is not shown in the drawings, a helical groove 120a is formed at both ends of the cross pipe 100, and a nut is fastened to both ends of the cross pipe 100. Further, It is needless to say that any fastening method can be utilized as long as both end portions of the cross pipe 100 can be firmly fixed to both side walls of the furnace body 51 without being limited by the invention.

The cross pipe 100 may be disposed in a lower space of two anti-skid rolls 53 spaced from the upper portion of the furnace body 51 in the traveling direction of the strip 1.

The strips 1 wound on the support rolls 52 arranged on the upper and lower sides inside the annealing furnace are frequently frequency and degree of winding in the heating section 50b in which rapid heating is performed. The rolls 53 are configured to calibrate meandering strips 1 in the set traveling direction. Specifically, two rolls 53 are arranged on the upper side inside the annealing furnace, spaced apart from each other in the traveling direction of the strip 1.

Thus, since the strip 1 does not pass under the anti-skid roll 53, a certain amount of empty space is formed and the thermal deformation is close to the central portion of the heating section 50b, It is preferable that the cross pipe 100 of the present invention is disposed in a space. Further, it is further preferable that a plurality of the cross pipes 100 are arranged in a spaced relation to each other.

Fig. 4 is a side view of the cross pipe of Fig. 3, Fig. 5 (a) is a cross-sectional view of the cross pipe of the cross pipe of Fig. 4, And FIG. 6 is a cross-sectional view taken along the line A-A 'in FIG.

Referring to FIG. 1, the cross pipe 100 may include an inner pipe 110 which is air-cooled while passing outside air, and an outer pipe 120 which surrounds the inner pipe 110 and has a water- .

Here, the outer cylinder 120 is disposed so as to surround the inner cylinder 110, and the refractory 140 may be filled between the inner cylinder 110 and the outer cylinder 120. This refractory 140 increases the thermal durability of the cross pipe 100.

In this case, the refractory 140 may be a ceramic wool. For example, the refractory 140 may be 160 kg / m ³ density and 1 50 mm as much as possible so that five sheets are 200 mm long, wound around the inner tube 110 And this refractory 140 is used by fitting the inner tube 110, which is wound, into the outer tube 120.

The refractory 140 has the advantage that some fragments may be removed at the time of operating for a long time in the case of small molding to affect the quality of the product, and the fragments and debris of the ceramic wool are not generated even when the long time runs.

The outer tube 120 has a spiral groove 120a formed on the outer surface thereof so that the water-cooled tube 130 is wound on the outer surface of the outer tube 120 and the water-cooled tube 130 is spirally inserted. That is, the spiral groove 120a of the outer tube 120 serves to guide the position of the water-cooling tube 130 and fix the position thereof.

The cross pipe 100 disposed in the high temperature heating section 50b is cooled by the cooling water flowing in the water cooling pipe 130 by winding the water cooling pipe 130 on the outer tube 120, Can be prevented.

As a result, the outer tube 120 is continuously exposed to the high-temperature atmosphere in the heating section 50b, so that the strength to support and support the deformation of the furnace body 51 can be lowered. So that the support strength can be maintained constantly.

In addition, since the inner cylinder 110 is internally cooled by the air-cooling method, the cross pipe 100 is cooled, thereby preventing the cross pipe 100 from being damaged by the high temperature.

The inner tube 110 and the outer tube 120 are preferably made of an SCH60 material having a thickness of 3 mm so as to prevent corrosion due to oxidation in the heating section 50b.

In addition, the water-cooled tube 130 is preferably made of STS304 material having a diameter of 3 mm so as to withstand a high temperature of 850 degrees or more.

The present invention configured as described above includes the cross pipe 100 penetrating the inside of the furnace body 51 and having both ends fastened and fixed to the fitting holes 51a of both side walls of the furnace body 51, It is possible to prevent thermal deformation of the wall surface of the furnace body 51 by fixing the position of the furnace body 51 by supporting the wall surface of the furnace body 51 by the fixing member 100.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

50: Annealing furnace 50b: Heating section
51: Non-body 51a: Fastening hole
100: cross pipe 110: inner tube
120: outer tube 120a: spiral groove
130: Water cooling tube 140: Refractory

Claims (7)

delete A furnace body having fastening holes formed on opposite side walls spaced from each other while facing each other; And a cross pipe penetrating the inside of the furnace body and having both ends thereof fastened and fixed to the fastening holes of the side wall surfaces so as to fix the wall surface of the furnace body so as to block thermal deformation of the wall surface of the furnace body,
Wherein the cross pipe comprises: an inner cylinder in which air is air-cooled while passing outside air; And an outer tube surrounding the inner tube and having a water-cooled tube wound on an outer surface thereof.
3. The method of claim 2,
Wherein the outer cylinder is disposed so as to surround the inner cylinder,
In the cross pipe,
A refractory filled between the inner passage and the outer passage;
Further comprising: an elastic member for preventing deformation of the body.
The method of claim 3,
Wherein the refractory is a ceramic wool.
3. The method of claim 2,
In the outer tube,
And a spiral groove is formed on the outer surface so that the water-cooled tube is inserted and wound in a spiral shape.
6. The method according to any one of claims 2 to 5,
Wherein the furnace body is a furnace body of a heating section heated by radiant heat of a radiant tube built in an annealing furnace.
The method according to claim 6,
In the cross pipe,
Wherein the heating section is disposed in a space below the two anti-skid rollers, the space being spaced apart from the upper portion of the heating section in the direction of travel of the strip.

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