KR101091543B1 - Skid Beam for Improving Temperature Distribution of Reheated Material By Aadapted Arrangement of Skid Button in Furnace - Google Patents

Abstract

Provided is a skid beam disposed in a furnace for heating a heating material prior to rolling, in particular improving the temperature distribution of the heating material.

The skid beam which improves the temperature distribution of the heating material of the present invention is a skid beam for supporting movement of the heating material heated in the heating furnace, the skid buttons provided on the skid beam in contact with and support the heating material heating material It is arranged in the longitudinal direction, the width direction, and the inclined direction of the skid beam so as to diversify the contact distribution with, and are arranged in the opposite position relative to the longitudinal center line of the skid beam.

According to the present invention, by improving the arrangement of the skid button is attached to the skid beam for supporting and transporting the heating material, such as slab in the heating furnace, by varying the skid button contact position in the heating material to improve the temperature distribution of the heating material On the other hand, an improved effect of improving the quality of the heating material as well as the post-rolling property can be obtained by reducing the skid mark.

Heating furnace, heating material, skid beam, skid button, skid mark, material temperature distribution

Description

Skid Beam for Improving Temperature Distribution of Reheated Material By Aadapted Arrangement of Skid Button in Furnace}             

1 is an overall configuration diagram showing a heating furnace

2 is a front configuration diagram showing the heating furnace of FIG.

3 is a main structural diagram showing a skid beam and a skid button for supporting a heating material in the furnace

4 illustrates an improved structure of a skid button as an example for improving a temperature distribution of a conventional heating material.

(a) is a schematic diagram showing an increase in the height of the skid button

(b) is a schematic diagram showing an enlarged heating material contact surface of the skid button

FIG. 5 illustrates an improved arrangement of a skid button to improve a temperature distribution of a conventional heating material.

(a) is a front view

(b) a schematic top view

Figure 6 is a plan view showing a skid beam improved the temperature distribution of the heating material to improve the arrangement of the skid button according to the present invention to prevent the temperature deviation of the heating material by the skid button

7 shows the distribution of skid marks according to the arrangement of skid buttons,

(a) is a plan view showing a conventional

(b) is a plan view showing the present invention

Explanation of symbols on the main parts of the drawings

1 .... skid beam according to the invention

10 .... Skid button arranged according to the invention

100 .... Furnace

110 .... Heating material

120 .... Conventional Skid Beam

130 ... Burners

The present invention relates to a skid beam that improves the temperature distribution of the heating material through the placement of the skid button, and more specifically, to a skid beam for supporting and transporting a heating material such as slab in the heating furnace. By improving the arrangement of the skid buttons, the contact area between the heating material and the skid button is diversified to make the temperature distribution of the heating material more uniform, while skid marks due to the contact of the heating material and the skid button The present invention also relates to a skid beam having improved temperature distribution of a heating material that not only reduces heat but also improves heating quality and post-rolling property.

The heating material such as slab made in the playing process is heated and put into the hot rolling process. In the heating furnace for heating the heating material, a skid beam for supporting movement of the heating material is disposed. There is attached a skid button in contact with the actual heating material, Figure 1 and Figure 2 shows such a heating furnace.

That is, as shown in Figure 1, the heating material 110, such as slab is heated while moving in the heating furnace 100 to a predetermined temperature before rolling, such a heating furnace 100, It has a skid beam 1 for supporting and transporting the heating material 110 therein and a plurality of burners 130 for providing a heat source, and an exhaust duct facility for flowing the atmosphere gas inside and discharging it to the outside ( 140) and the like.

At this time, as shown in Figure 2, the skid beam (1) simply by repeating a series of operations of the rising-> forward-> falling-> rear with the fixed beam skid (120a) in which the heating material 110 is moved A moving beam skid 120b for substantially moving the heating material is provided, and thus the heating material 110 is moved forward in the heating furnace 100 to the exit side.

Meanwhile, as shown in FIG. 3, the skid beam 1 is disposed above the fixed and movable beams 120a and 120b, and the skid pipe 122 and the skid pipe 122 through which coolant flows. It is composed of a fireproof material 124 is wrapped on the outside of the skid pipe 122, the skid button 126 made of a material such as ceramic composite material or heat-resistant special steel to substantially support the heating material 110 in contact with A plurality is mounted to support the heating material 110.

That is, since the internal atmosphere temperature of the heating furnace 100 reaches a temperature of approximately up to 1300 ℃ in order to heat the heating material 110, the weight of the normal heating material 110 may reach up to about 20 tons, In order to move the high-temperature, heavy-weight heating material 110 while supporting it without thermal damage, a skid button 126 of a special material cooled as described above is provided on the skid beam 1.

In addition, in order to secure the stiffness required in the high temperature heating furnace 100 in the skid beam 1, a coolant is passed through the inside of the skid pipe 122 to decrease the physical properties of the pipe, for example, the strength thereof. It also prevents the temperature rise by surrounding the skid pipe 122 with the refractory material 124.

In addition, the skid button 126 as described above minimizes the contact area with the heating heat material to improve the heating efficiency of the heating material, and also provides a function of preventing damage to the skid beam 1 by heat.

However, as shown in FIG. 3, the skid beam 1 and the skid button 126 function as a heat-sink that causes heat loss in the heating furnace and lowers its thermal efficiency. In particular, since the skid button 126 is in direct contact with the lower portion of the heating material 110,
At the same time it blocks the radiant heat that must be transferred to the heating material, but rather functions as a kind of crosslinking to transfer the heat of the heating material to the skid beam 1 side.

Therefore, the skid button 126 affects the heating state of the heating material by various factors, and various studies have been conducted to reduce the effect of the skid button.

On the other hand, in order to reduce the thermal effect by the skid button 126, there is a method of improving the structure of the skid button, and a method of improving the arrangement of the skid button while the same structure of the skid button 126.

For example, FIG. 4 illustrates the improvement of the structure of the skid button 126 itself, as shown in FIG. 4A, by using the skid button 126a having an increased height compared to the existing skid button 126. There is a method of increasing the heat transfer distance to the skid beam 1 through which the coolant passes while increasing the radiant heat transfer rate to the heating material, thereby reducing the amount of heat transferred.

Alternatively, as shown in FIG. 4B, the heat transfer from the heating material 110 is performed by increasing the temperature of the skid button by transforming it into a shape of the skid button 126, that is, reducing the area of the middle portion 126b. There is a way to reduce the amount.

Meanwhile, FIG. 5 illustrates a method through the arrangement of the skid button 126. For example, instead of installing the skid button 126 in a straight shape, as shown in FIGS. 5A and 5B, the skid button 126 is illustrated. The method of reducing the contact time of the heating material of the skid button as much as possible by zigzag arrangement of has been studied.                         

Alternatively, although not shown in the drawing, a material of the skid button 126 may be made of a ceramic material having low thermal conductivity.

However, in the conventional methods, for example, to improve the structure of the skid button itself, the thermal effect may be reduced, but a problem may occur in terms of strength for supporting the heavy weight heating material 110.

In addition, when the skid button 126 is arranged in a zigzag, only the skid button is not arranged in a straight line. In fact, the contact area of the heating material supported by the skid button is constant. Is not completely solved.

In addition, manufacturing the material of the skid button made of ceramic, etc., can solve the thermal problem to some extent, but it is burdensome in terms of material cost, and furthermore, considering that the skid button itself needs to be periodically repaired or replaced due to thermal damage. There is a problem.

Meanwhile, a skid mark generated by the skid button 126 supporting the heating material 110, that is, a material part contacting the skid button of the entire area of the heating material 110 by the skid button 126. The skid button 126 concentrates only on the same portion of the heating material 110 in the generation of a skid mark in which the temperature is about the temperature deviation shown by having a lower heating temperature than other parts by the above-mentioned effect. When you repeat, it increases.

Accordingly, it is more preferable to uniformly improve the temperature distribution of the heating material or to reduce the generation degree of the skid mark by further diversifying the arrangement of the skid button provided on the skid beam.

The present invention has been made to solve the conventional problems as described above, the purpose is to diversify the contact portion of the heating material and the skid button to make the temperature distribution of the heating material more uniform, while contacting the heating material and the skid button It is to provide a skid beam which improves the temperature distribution of the heating material which also reduces the skid mark.

As a technical aspect for achieving the above object, the present invention, in the skid beam for the support movement of the heating material heated in the heating furnace, the skid buttons provided on the skid beam in contact with and support the heating material In order to diversify the contact distribution with the heating material, it is arranged in the longitudinal direction, the width direction, and the inclined direction of the skid beam, and the temperature distribution of the heating material which is alternately disposed at opposite positions with respect to the longitudinal center line of the skid beam is improved. It is to provide a skid beam.

At this time, the skid buttons, the longitudinal skid button arranged in the longitudinal direction with respect to the longitudinal center line of the skid beam, the widthwise skid button of the center side disposed in the width direction of the skid beam, and the skid beam It is preferable that the inclined skid buttons arranged in the inclined direction with respect to the longitudinal center line consist of one skid button group and are repeatedly arranged in the longitudinal direction of the skid beam.

In addition, the skid buttons in each direction may be disposed at a position rotated by a predetermined angle with respect to one of the longitudinal skid buttons.

At this time, the angle is most preferably 45 °.

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

Figure 6 is a plan view showing a skid beam improved the temperature distribution of the heating material according to the present invention to improve the arrangement of the skid button to prevent the temperature deviation of the heating material by the skid button, Figure 7 is a layout of the skid button 7A is a plan view showing a conventional art, and FIG. 7B is a plan view showing the present invention. Hereinafter, reference numerals of a heating furnace and a heating material are the same as those of the prior art. List it.

First, FIG. 6 shows a skid beam 1 having an improved temperature distribution of a heating material according to the present invention, the structural feature of which is an improved arrangement of skid buttons 10 provided on the skid beam 1. It is about.

That is, as shown in Figure 6, in the skid beam (1) to improve the temperature distribution of the heating material by the arrangement of the skid button of the present invention, the heating material 110 is supported while being disposed in the heating furnace 100 Skid buttons 10 on the skid beams 1 to be transported are arranged in the longitudinal direction X, the width direction Y, and the inclined direction Z of the skid beams 1, respectively, and the skid buttons 10 in the respective directions. ) Are alternately arranged with respect to the longitudinal center line (C), thereby diversifying the heating material contact distribution of the skid button 10 to improve the temperature distribution of the heating material and to reduce the dispersion and degree of skid marks.

At this time, as shown in Figure 6, look at the arrangement of the skid button 10 in more detail, the skid button 10 of the present invention is composed of one arrangement group (G), on the skid beam (1) It may be possible to variably adjust according to the group to be repeatedly installed in the arrangement group (G) or alternately arranged on the basis of the position of the skid button 10, that is, the longitudinal center line (C) of the skid beam (1).

On the other hand, in the method of improving the temperature distribution of the heating material by the arrangement of the skid button according to the invention, the skid buttons 10 are staggered in the longitudinal direction (X) around the longitudinal center line (C) of the skid beam (1). Longitudinal skid buttons 10a1 and 10a2 arranged, a widthwise skid button 10b on the center side arranged in the width direction Y of the skid beam 1, and a longitudinal centerline of the skid beam 1 (C) can be arranged in one arrangement group with the inclined direction skid buttons (10c1) (10c2) arranged in the inclined direction (Z) staggered.

That is, referring to FIG. 6, another skid button 10a2 in the longitudinal direction is disposed diagonally with respect to the front skid button 10a1 based on the width direction centerline C of the skid beam 1, and therebetween. The width direction skid button 10b is arrange | positioned at the center side, and the inclination direction skid buttons 10c1 and 10c2 are arrange | positioned between these longitudinal direction and the width direction skid buttons with mutually staggered position with respect to the longitudinal center line C. It is.

Therefore, the heating material 110 that is in contact with the skid button 10 of the skid beam 1 of the present invention, that is, the slab or the like, is conventionally arranged in a single line or simply in a zigzag form (see FIG. 5). 126, the contact portion of the heating material is always constant and concentrated, whereas in the present invention, when the contact portion of the heating material 110 by the skid buttons 10 is based on the entire heating material surface. As a result, the heat transfer from the heating material is not deepened, so that the temperature distribution of the heating material is made more uniform, while reducing the skid marks, and since the skid marks are not concentrated, the degree of relaxation is reduced. Can be.

At this time, as shown in Figure 6, the skid buttons (10a1-10c2) in each direction, at a predetermined angle (a) of about 45 °, based on the front longitudinal first skid button (10a1) It can be seen that the position is rotated, which means that in the present invention, the skid buttons 10 are not randomly arranged, but are disposed on the skid beam 1 with a certain arrangement condition, and such arrangement is more conventional than the conventional one. It is also possible to diversify the arrangement of the skid buttons, while also placing them on the actual skid beam.

At this time, it is important that the skid button 10 of the present invention shown in Figure 6 is the same size and material of the existing skid button (126 of Figure 3), for example, high heating material as shown in Figures 4 and 5 It will not support or significantly change the structure, but it will be possible to enlarge the contact area with the heating material 110.

That is, the feature of the present invention is to diversify the arrangement of the skid button 10 in contact with the heating material 120, unlike the existing, so that the skid mart (M) is not concentrated in the same shape and the same position on the heating material. will be.                     

On the other hand, Figure 7 shows the skid mark (M) shown in the present invention and the conventional heating material, when comparing the present invention of Figure 7a with the present invention of Figure 7b, in particular the width direction of the heating material 110, namely In the rolling direction (the longitudinal direction of the material) during the rolling, the skid mark (M) is shown almost concentrated in a straight line, but in the present invention of Figure 7b it can be seen that the skid mark (M) is very diversified. It can be seen that the influence of the sea skid mark (M) can be dispersed in the present invention, which will improve the rolling quality more in the case of the present invention.

That is, when a skid mark of a continuous form on the heating material is continuously displayed in a straight line in the width direction of the heating material by the arrangement of the conventional skid button 126 of FIG. 7A, a uniform thickness as a strain by rolling is obtained. The thickness deviation of the rolled material is generated while influencing the obtained rolled material.

For example, during rolling, the deformation behavior of the rolled material is in a plane strain state, so that stretching occurs in the longitudinal direction of the heating material, that is, the rolling direction, and there is little deformation in the width direction of the heating material.

In particular, in the width direction of the heating material, both edge portions of the heating material may be stretched due to the small peripheral interference area of the edge portion, and thus barreling may occur. Since almost no deformation can be made, a thickness deviation with respect to the center part occurs in the width direction.

However, as shown in Fig. 7B, in the case of the present invention, since the skid mark M is not concentrated in a straight line and its distribution is wider than in the related art, there is little room for the problem described above.

Therefore, the skid mark generated by the skid button is concentrated in a narrow area in the conventional case (FIG. 7A), whereas the degree of the skid mark is large, whereas in the case of the present invention, the skid mark appears over a relatively large area. The degree of the mark is also relatively low.

In addition, the relatively high heating temperature and low temperature during rolling are close to each other to reduce the occurrence of thickness deviation of the rolled material by absorbing the deformation due to rolling in a relatively high temperature region.

According to the skid beam which improves the temperature distribution of the heating material of this invention, when a heating material moves in the furnace using the skid beam provided with a skid button, generation | occurrence | production of a skid mark does not occur intensively in a part of a heating material, By spreading widely over the entire surface of the heating material, it is possible to secure a heating material having a wide range of low skid marks, and exhibits a low temperature deviation due to easy deformation and weak skid marks by rolling. It is to provide an excellent effect to obtain a rolled material having a good flatness and thickness deviation when rolling through.

In particular, by only varying the layout of the skid button without improving the structure of the existing skid beam, it is also easy to install the saddle (saddle) for this provides another excellent effect that can be applied directly in the field.                     

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)

In the skid beam for the support movement of the heating material heated in the furnace, Skid buttons provided on the skid beam in contact with and supporting the heating material are arranged in the longitudinal, width and inclined directions of the skid beam to diversify the contact distribution with the heating material, while the longitudinal centerline of the skid beam is disposed. Skid beam improved temperature distribution of the heating material, characterized in that the staggered arrangement in the opposite position relative to. The method of claim 1, wherein the skid buttons, A longitudinal skid button disposed longitudinally staggered about the longitudinal center line of the skid beam; A width direction skid button on the center side disposed in the width direction of the skid beam; And, An inclined skid button arranged in an inclined direction with respect to a longitudinal center line of the skid beam; Skid beam, characterized in that consisting of one skid button group repeatedly arranged in the longitudinal direction of the skid beam. The skid beam of claim 2, wherein the skid buttons in each direction are disposed at positions rotated at an angle with respect to one of the longitudinal skid buttons. 4. The skid beam of claim 3 wherein said angle is comprised of 45 degrees.

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