KR20030008119A - Skid button for skid mark diminution - Google Patents

Abstract

PURPOSE: A skid button of skid mark reduction type is provided to reduce a deviation of temperature between the bottom surface of a slab and the top of the skid button to be contact with the bottom surface by increasing an upper cross section area of the skid button, thus reducing the generation of skid marks on the bottom surface. CONSTITUTION: In the skid button(1) for supporting a slab with being in contact with the slab loaded in a heating furnace, the skid button has a trapezoid form so that an efficiency of heat exchange and a temperature of environment of the heating furnace are increased. The skid button is formed on both side surfaces thereof with a groove or projection, a shape of the groove or projection being selected among elliptical, triangular and rectangular shapes.

Description

Skid mark for skid mark reduction {Skid button for skid mark diminution}

The present invention relates to a skid button for skid mark reduction, and more particularly, is installed on the inner bottom of the heating furnace to minimize the skid marks generated in the slab by increasing the cross-sectional area so as to increase the temperature of the skid button for supporting the slab. It relates to a skid button for skid mark reduction can be.

In general, a fixed beam and a moving beam, which is an iron structure supporting the slab, are installed in a heating furnace for heating the slab, and the cooling water supporting the skid button 1 is shown between the fixed beam and the moving beam. The pipe 2 is provided, but insulation is provided in the inner peripheral surface of the cooling water pipe 2, and the skid button 1 is inserted through the cooling water pipe 2 through.

The skid button is to form a space on the bottom of the slab so that the upper and lower parts of the slab is uniformly heated, but the temperature difference is generated due to a small amount of heat flowing into the bottom of the slab through the space formed by the skid button. There was a skid mark on the bottom of the slab.

In particular, since the skid button (1) is cooled by the coolant circulated to the coolant pipe (2), the skid button (1) is lower than the temperature inside the heating furnace, so a skid mark was generated on the bottom of the slab (3).

In order to reduce the temperature deviation, the temperature of the furnace is adjusted upward, but at this time, the temperature inside the furnace is increased, which makes the quality control of the product vulnerable. The thickness variation was inhibited by Gauge Control, which caused tension and increased thickness defects by looper hunting.

Therefore, if the reduction of the skid mark is not achieved, the surface temperature decreases due to the increase in the temperature of the heating furnace due to the reduced rolling passability, the scale increase due to the excessive use of the fuel, and the dimensional defects due to the poor passability in finishing rolling. There was a problem such as occurring.

The present invention has been invented to solve the above problems, the object is to contact the bottom and the bottom of the slab by increasing the top cross-sectional area of the skid button so that the skid button for supporting the slab can exchange heat with the temperature inside the furnace. It is to provide a skid mark reduction skid button to reduce the occurrence of the skid mark on the bottom of the slab by reducing the temperature deviation of the upper skid button.

1 is a cross-sectional view showing a state that the slab is supported by a conventional skid button.

Figure 2 is a cross-sectional view showing a state that the slab is supported by the skid button according to the present invention.

3 to 7 is a cross-sectional view showing a state that the slab is supported by the skid button of another embodiment according to the present invention.

※ Explanation of symbols about main part of drawing ※

1: skid button 2: coolant pipe

3: slab 4: insulator

5 inclined surface 6 protrusion

7: groove 8: square groove

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

Skid mark reduction skid button of the present invention is a skid button for supporting the slab in contact with the slab (3) charged in the heating furnace, trapezoidal skid button so that the atmosphere temperature and heat exchange efficiency of the heating furnace is increased Forming or forming projections or grooves on both sides of the skid button, the projections or grooves formed on both sides of the skid button is formed of any one of oval, triangle, square.

Referring to the present invention having such characteristics in detail as follows.

2 is a cross-sectional view showing a state that the slab is supported by the skid button according to the present invention.

As referred to herein, the present invention is provided with a skid button (1) for supporting the slab (3) on the bottom of the heating furnace, the skid button (1) is inserted through the cooling water pipe (2) through which the coolant is circulated And an upper portion protrudes to the outside of the cooling water pipe (2), and the protruding portion is formed to have a trapezoidal shape having an inclined surface (5) to increase the heat exchange efficiency, and an insulator (4) on the inner circumferential surface of the cooling water pipe (2). Is installed.

The sum of the heat transfer rates transmitted to the skid button is '0' as in Equation 1.

q = q _s + q _e -q _c = 0 → q _s + q _e = q _c

From here

q _s : Heat transfer rate from slab to skid button.

q _e : Heat transfer rate from the furnace atmosphere gas to the skid button.

q _c is the heat transfer rate from the skid button to the coolant pipe.

Therefore, in order to reduce the skid mark, the heat transfer rate from the slab 3 should be reduced, and for this purpose, the temperature (energy or heat) of the skid button 1 should be increased.

That is, the amount of heat transferred from the atmosphere gas to the skid button 1 must be increased.

Qe = q _e * A = Aσε (T ⁴ _gas -T ⁴ _skid )

From here

A: heat transfer surface area.

ε: emissivity.

σ: Proportional constant (Stefan-Boltmann constant, 5.669 * 10 ^-8 W / m ² K ⁴ ).

That is, in order to increase the calorie Qe, the temperature of the atmospheric gas must be raised or the surface area A of the skid button 1 must be increased.

Since energy is excessively consumed in order to increase the temperature of the atmospheric gas in the condition for increasing the amount of heat, in the present invention, the cross-sectional area A of the skid button 1 is increased to minimize the occurrence of skid marks.

Alternatively, when protruding the triangular or elliptical protrusions 6 on both sides of the skid button 1 to increase the cross-sectional area as shown in FIGS. 3 and 4, the depth and length are formed in the range as shown in Equation 3 below.

,

From here

H: height of the skid button.

h: height of the projections.

L: length of protrusion.

Alternatively, when the groove 7 of the triangular or elliptical shape is formed on both sides of the skid button 1 as shown in FIGS. 5 and 6 to increase the cross-sectional area, the depth and length are formed in the range as shown in Equation 4.

, ,

From here

H: height of the skid button.

h: height of the groove.

L: depth of groove

T: width of skid button

h1 is the length between the top of the groove and the top of the skid button.

Alternatively, when the rectangular groove 8 is formed on both sides of the skid button 1 to increase the cross-sectional area, the depth and the length are formed in the range as shown in Equation 5 below.

, ,

From here

H: height of the skid button.

h: height of the groove.

L: depth of groove

T: width of skid button

h1 is the length between the top of the groove and the top of the skid button.

Therefore, since the upper surface area of the skid button 1 is increased, the atmosphere temperature and heat exchange efficiency inside the heating furnace are improved, thereby reducing the occurrence of skid marks generated on the surface of the slab 3 in contact with the skid button 1. will be.

The present invention is to form a slope, projections, grooves, etc. on both sides of the skid button for supporting the slab charged into the interior of the furnace to improve the heat exchange efficiency of the atmosphere gas inside the furnace to contact the skid button of the slab There is a unique effect that can reduce the skid marks generated on the bottom.

Claims (4)

In the skid button for supporting the slab in contact with the slab (3) charged in the heating furnace, Skid mark reduction skid button, characterized in that the skid button is formed in a trapezoidal shape so as to increase the ambient temperature and heat exchange efficiency of the heating furnace. The skid mark reduction skid button according to claim 1, wherein protrusions (6) are formed on both sides of the skid button. The skid mark reduction skid button according to claim 1, wherein grooves (7) are formed on both sides of the skid button. The skid mark reduction skid button according to claim 2 or 3, wherein the protrusions or the grooves formed on both sides of the skid button are formed of any one of an oval, a triangle, and a rectangle.