KR100511403B1 - An apparatus for controlling the discharge of ore in bin - Google Patents

Abstract

In the present invention, the inner diameter is gradually narrowed from the top to the bottom along the wall of the reservoir 120, and the outer surfaces of the reservoir 120 are arranged side by side with each other and are arranged in the center of the reservoir 120. An adjustment bin 10 on the inverted pyramid cross-section that guides the small particles and the opposing light arranged on the wall portion to be uniformly discharged through the lower exit hole 125; One end is connected to the wall surface of the reservoir 120, the other end is connected to the outer wall of the control bin 10, the plurality of support 20 and the storage tank (20) for fixing the control bin 10 in the reservoir 120 Half-sensitive plate fixed to the lower cutout 125 of the adjusting bin 10 to limit the cutting speed of the raw light passing through the steep slope 121 of the 120 and the corresponding inclined surface 11 of the control bin 10 corresponding thereto. (30).

According to the present invention, while cutting ore from the storage tank, the cutting speed of the small particles accumulated in the center is suppressed while the cutting speed of the alleles accumulated in the wall is relatively fast, so that the small and allied light stored unevenly in the storage tank can be initially extracted. From the end to the end, it cuts into a uniform particle size, ensures the air permeability of the blast furnace sufficiently, suppresses the growth of the adhering light, and can obtain the effect of preventing the fall of storage capacity.

Description

Ore extraction control device of raw material storage tank {AN APPARATUS FOR CONTROLLING THE DISCHARGE OF ORE IN BIN}

The present invention relates to an apparatus for controlling the extraction of raw light stored in a storage tank. More specifically, the extraction speed of the small particles accumulated in the center of the ore extraction from the storage tank is suppressed, while the extraction speed of the allele accumulated on the wall is relatively fast. Ore of raw material storage tank that can induce small particle and allelic light unevenly stored in the storage tank to uniform particle size from the beginning to the end to secure the air permeability of the blast furnace, and prevent the degradation of storage capacity by inhibiting the growth of adhesion light. It relates to a cutout control device.

In general, the sintered ore produced in the sintering process, which is a preliminary step of the blast furnace process, is used as a raw material ore of the blast furnace, and such sintered raw ore (hereinafter, referred to as raw ore) is shown in FIGS. The upper part of the reservoir (hereinafter referred to as a reservoir) 120 is granulated and stored in the reservoir 120 by a tripper 110 that is a mobile device reciprocating in the direction of arrow A, and the storage amount is stored in each reservoir 120. It is automatically detected by a detector (not shown) installed in the raw material is always charged constantly.

Then, when the charging of the raw light in the reservoir 120 is completed, by opening the gate (not shown) provided in the reservoir 120 to open the lower outlet (125) in accordance with the discharge, the open lower outlet The raw material light charged into the storage tank 120 is discharged downward through the 125, and the discharged raw light is charged into the lower storage tank 140 through the particle size sorter 130 or onto the lower side belt conveyor 150. It is dropped and charged into another reservoir 160 in a later process.

On the other hand, during the cutting operation in which the raw light charged into the storage tank 120 is discharged to the lower through the lower cutting hole 125, as shown in Figure 4, during the initial cutting, the raw light loaded inside maintains the flatness While being discharged while being 70% or less from the height of the storage tank 120, the inclination degree of which the ore extraction speed is relatively small on the inclined surface in which the inclination with respect to the horizontal plane among the wall surfaces of the storage tank 120 is urgent is relatively small It begins to appear faster than the rate of ore extraction on a gentle slope.

In this case, the raw light flatness of the reservoir 120 is broken and the cutting speed on the steep slope is steeper, and the distribution of alleles and small particles is biased and is lowered to the lower slope. It appears large.

In blast furnace operation, the particle size and uniformity of coke as fuel and sintered ore as main ore have a direct influence on the breathability in the blast furnace. This resulted in the deterioration of the continuous operation, which led to deterioration of the productivity.

In addition, when only the small particle light in the center of the reservoir 120 is cut out, and the opposing light in the wall portion is not cut out, as time passes, the adhesion light grows due to the condensation of ore fixation on the wall of the reservoir. And the storage light of the reservoir is reduced by lowering the volume of the reservoir by the grown adhesion light. Accordingly, the worker periodically emptied the inside of the reservoir and manually removed the adhesion light and the deposit adhered to the wall.

Therefore, the present invention has been proposed to solve the above-mentioned conventional problems, the object of which is to provide an adjustment bin in the inside of the reservoir to suppress the small-light extraction speed of the central portion during the extraction of the raw light, while the opposite light extraction speed of the wall portion By relatively fast induction of the particle size and non-uniform particle stored in the storage tank at a uniform particle size from the beginning to the end of the cutting to ensure a sufficient ventilation of the blast furnace, inhibit the growth of adhesion light to prevent degradation of storage capacity To provide an ore extraction control device of the raw material storage tank.

As a technical configuration for achieving the above object, the present invention,

In the device for controlling the extraction of the raw light discharged to the outside through the lower outlet of the storage tank in which the raw light is stored,

The inner diameter is gradually narrowed from the top to the bottom along the wall of the reservoir, and the outer surfaces are arranged side by side with respect to the wall of the reservoir so that the small particles arranged in the center of the reservoir and the opposing light mounted on the wall are lower. A control bin on the inverted pyramid cross section which leads to uniform discharge through the cutout;

A plurality of supports having one end connected to a wall surface of the reservoir and the other end connected to an outer wall of the adjusting bin to fix the adjusting bin in the storage tank;

And a half-sensing plate fixed to the lower outlet of the adjusting bin to limit the cutting speed of the raw light passing between the steep slope of the storage tank and the corresponding inclined surface of the adjusting bin. By provision.

Hereinafter, the present invention will be described in more detail.

5 is a plan view showing an ore extraction control apparatus of a raw material storage tank according to the present invention, Figure 6 is a front view showing an ore extraction control apparatus of a raw material storage tank according to the present invention, Figure 7 is a raw material storage tank of the present invention 8 is a side view illustrating an ore extraction control apparatus, and FIG. 8 is a perspective view illustrating an ore extraction control apparatus of a raw material storage tank according to the present invention.

5 to 8, the apparatus 1 of the present invention is provided in the inner space of the storage tank 120 in which the raw light is stored in a predetermined amount to slow down the cutting speed of the small particles collected at the center at the time of harvesting the raw light. On the other hand, by the relatively high speed of extraction of all the light gathered in the wall to be uniformly cut out the raw light through the lower outlet (125), such a device (1) the adjustment bin (10), the support (20) and the half-sensitive plate It consists of 30.

That is, the adjustment bin 10 is the storage tank 120 so that when the raw light entering into the storage tank 120, the small particle light and the opposing light integrated in the wall portion are uniformly discharged through the lower outlet (125). It is a hollow member on the inverted pyramid cross section that is disposed in the inner space of the ore to control the extraction flow of ore.

The adjustment bin 10 is the upper and lower openings 10a such that the inner diameter is gradually narrowed from the top to the lower portion along the wall of the reservoir 120 as the reservoir 120 is gradually narrowed from the top to the bottom 10b are formed, respectively, and the outer surface of the plate connecting the upper and lower opening portions 10a and 10b on the rectangular cross section is disposed substantially parallel to each other with respect to the wall of the reservoir 120.

And, the support 20 is a plurality of fixing means provided between the outer surface of the adjusting bin 10 and the inner surface of the reservoir 120 to fix the adjusting bin 10 in the reservoir 120.

 The support 20 is connected to the bracket 21a to be welded or bolted to the wall surface of the reservoir 120 by a fixing pin 22a, and welded or bolted to the outer surface of the adjusting bin 10. The other end of the bracket 21b is a steel member on the H-section connected to the other end by another fixing pin 22b, and a wear-resistant liner is attached to the outer surface to prevent wear due to prolonged ore flow friction. You may also do it.

On the other hand, the half-sensitive plate 30 of the control bin 10 to limit the cutting speed of the raw light passing between the steep slope 121 of the reservoir 120 and the inclined surface 11 of the control bin 10 corresponding thereto. It is a plate-shaped plate member fixedly installed near the lower opening 10b.

The half-sensitive plate 30 is welded to the end of the lower opening 10b, the upper end is integrally fixed to the lower end of the vertical stand 31 extending directly from the outer surface of the adjusting bin 10 to the lower opening It is preferable to be disposed to be inclined at a predetermined angle toward the (125) side.

In addition, in the vicinity of the lower cutout 125, the cutting speed of the raw light passing through the steep slope 121 of the reservoir 120 and the inclined surface 11 of the control bin 10 corresponding thereto is once again relaxed. One end is fixed in contact with the inclined surface 121 of the reservoir 120, the position change plate 35 is supported by a plurality of vertical table 36 to maintain the inclination angle toward the lower opening (125) To be fitted.

The operation and effects of the present invention having the configuration as described above will be described.

9 (a) (b) (c) (d) (e) are state diagrams in which ore is cut out by the ore extraction control apparatus of the raw material storage tank according to the present invention.

When the raw material light is dropped into the vicinity of the upper part of the storage tank 120 by the tripper car 110 traveling on the upper part of the storage tank 120, the raw material light is filled with a mountain shape in which the center portion is high and the outer edge thereof is low. At the same time as the completion of the ore, alleles having a large particle size are rolled and accumulated in the wall of the storage tank 120 according to the angle of repose of the ore, while small particles of small particle size are stacked in the center portion.

In addition, the adjustment bin 10 fixedly installed in the storage tank 120 is completely buried by the raw light.

When the gate (not shown) disposed in the lower outlet 125 of the reservoir 120 is operated to open the lower outlet 125, the raw light incorporated into the reservoir 120 may receive the lower outlet ( 125) it begins to cut out downward.

When the ore extraction is carried out in the center of the reservoir 120, the small particle light having a cutting speed faster than the opposing light of the wall portion is disposed in the reservoir 120, the upper portion of the adjustment bin 10 is gradually narrowed toward the bottom As it is discharged from the opening 10a through the lower opening 10b, the cutting speed through the lower opening 125 is reduced.

On the other hand, the opposed light, which is disposed on the wall of the reservoir 120 and is formed at a relatively slow cutting speed compared to the small particles of the central portion, is substantially parallel to the inclined inner surface of the reservoir 120. As it is discharged between the surfaces, the cutting speed through the lower cutting hole 125 is increased.

Accordingly, the raw material light discharged through the lower outlet 125 of the storage tank 120 is appropriately mixed with the opposing and small particle light having different particle sizes, so that the raw material light is charged into the blast furnace with a uniform particle size as a whole to allow air permeability in the blast furnace. It can be secured.

According to the present invention as described above, while the raw material to be charged into the blast furnace suppresses the cutting speed of the small particles in the central portion during the extraction of the ore of the storage tank, the extraction speed of the alleles mounted on the wall relatively induced As a result, the raw material light that is cut into the blast furnace through the lower opening of the storage tank can be charged at a uniform particle size, thereby directly contributing to the stable operation of the blast furnace, thereby improving the productivity of the blast furnace, and By uniformly inducing the gas flow in the furnace to suppress the heat load of the equipment, thereby extending the life of the equipment.

In addition, the effect of preventing the occurrence of fixed light in the wall portion of the reservoir can be obtained to maintain a constant initial storage capacity of the limited reservoir.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to clarify that knowledge is easy to know.

1 is a process flow diagram of supplying raw ore in a typical blast furnace installation.

Figure 2 (a) (b) is a plan view and a side view showing a typical raw material storage tank.

3 is a schematic view showing a tripper and a particle size sorter provided in a general raw material storage tank.

Figure 4 is a schematic diagram showing the ore extraction flow in the conventional raw material storage tank.

5 is a plan view showing an ore extraction control apparatus of a raw material storage tank according to the present invention.

6 is a front view showing an ore extraction control apparatus of a raw material storage tank according to the present invention.

7 is a side view showing an ore extraction control apparatus of a raw material storage tank according to the present invention.

8 is a perspective view showing an ore extraction control apparatus of a raw material storage tank according to the present invention.

9 (a) (b) (c) (d) (e) are flow charts in which the ore is cut out by the ore extraction control apparatus of the raw material storage tank according to the present invention.

Explanation of symbols on main parts of drawing

10 ....... Adjustment bin 10a, 10b ... upper and lower openings

20 ....... Support 30 ....... Half-Plated Plate

31,36 .... Vertical stand 35 ....... Position change plate

110 ...... Trippercar 120 ...... Reservoir

125 ......

Claims (3)

In the device for controlling the extraction of the raw light is discharged to the outside through the lower outlet 125 of the storage tank 120 in which the raw light is stored, The inner diameter gradually narrows from the top to the bottom along the wall of the reservoir 120, and outer surfaces of the reservoir 120 are arranged side by side with respect to the wall of the reservoir 120, and are disposed in the center of the reservoir 120. An adjustment bin 10 on the inverted pyramid cross-section that directs the opposing light accumulated on the wall portion to be uniformly discharged through the lower exit hole 125; One end is connected to the wall surface of the reservoir 120, the other end is connected to the outer wall of the control bin 10, a plurality of supports 20 for positioning the control bin 10 in the reservoir 120 and Fixed installation in the lower cutout 125 of the adjustment bin 10 to limit the cutting speed of the raw light passing through the steep slope 121 of the reservoir 120 and the slope 11 of the control bin 10 corresponding thereto. Ore extraction control device of the raw material storage tank, characterized in that it comprises a half-damping plate (30). The method of claim 1, The half-sensing plate 30 is welded to the end of the lower opening 10b, the upper end is integrally fixed to the lower end of the vertical stand 31 extending directly from the outer surface of the adjusting bin 10 to the lower opening The ore extraction control apparatus of the raw material storage tank characterized by being inclined toward the (125) side. The method of claim 1, In the vicinity of the lower cutout 125, the cutting speed of the raw light passing between the steep slope 121 of the storage tank 120 and the inclined surface 11 of the control bin 10 corresponding thereto may be once again relaxed to mitigate. One end is fixed in contact with the inclined surface 121 of the reservoir 120, and the position change plate 35 is supported by a plurality of vertical stand 36 to maintain the inclination angle toward the lower opening (125) side Ore extraction control device of the raw material storage tank characterized in that.