KR20200077738A - Apparatus for eliminating scale on slab - Google Patents

Abstract

Disclosed is an invention related to an apparatus for removing scales of a material. An object of the present invention is to provide the apparatus for removing scales of a material, which blocks generation of nitrogen oxides in the material. The apparatus for removing scales of a material according to the present invention comprises: a housing having an entry port through which the material enters and an exit port through which the material exits; a roller unit moving the material; and a scarfing unit removing scales from the material entering the housing. The scarfing unit includes: a scarfing block unit installed in the housing; a burner unit mounted on the scarfing block unit, and providing a flame to the material to remove the scales from the material; and an inert gas supply unit rotationally mounted on the scarfing block unit, and providing an inert gas to the surface of the material while being rotated.

Description

Material descaling device {APPARATUS FOR ELIMINATING SCALE ON SLAB}

The present invention relates to a scale removing device for a material, and more particularly, to a scale removing device for a material that blocks the formation of nitrogen oxides in the material.

In a steel mill, a scarfing process in which a material surface is melted using oxygen and liquid natural gas (LNG) is used to remove the scale of the material surface. In this process, nitrogen oxides (NOx) are generated.

Background art of the present invention is disclosed in Republic of Korea Patent Publication No. 10-1514528 (2015.04.16 registration, the name of the invention: slab surface scale removal apparatus and method).

According to an embodiment of the present invention, to provide a scale removing device of a material that blocks the production of nitrogen oxides in the material.

An apparatus for removing a scale of a material according to the present invention includes: a housing having an entrance through which a material enters and an exit through which the material enters; A roller unit for moving the material; And a scarfing unit for removing scale from the material entering the housing, wherein the scarfing unit includes a scarfing block unit installed in the housing; A burner part mounted on the scarfing block part and providing a flame to the material to remove scale from the material; And an inert gas supply part rotatably mounted on the scarfing block part and providing an inert gas to the surface of the material while being rotated.

In the present invention, the angle of rotation of the inert gas supply unit is rotated in the scarfing block unit according to the surface temperature of the material.

In the present invention, the housing is equipped with a temperature sensor unit for measuring the surface temperature of the material, and the rotation angle of the inert gas supply unit is adjusted according to the surface temperature of the material measured by the temperature sensor unit.

In the present invention, a gas circulation unit for sucking the inert gas inside the housing and providing the inert gas to the inert gas supply unit is further included.

In the present invention, the gas circulation unit is mounted on the housing, and a collecting unit for collecting the inert gas inside the housing; A pump part connected to the collecting part and sucking the inert gas into the collecting part; And a flow path portion configured to move the inert gas collected by the collecting portion to the gas supply portion.

In the present invention, it is mounted on the housing, and further includes an urea water supply unit for supplying urea water into the housing.

In the present invention, it is mounted to the entrance and the exit, respectively, and further comprises an air curtain unit that discharges the inert gas to block the inflow of air to the entrance and the exit.

In the present invention, a plurality of the housings are disposed along one side of the housing along the longitudinal direction of the housing, and further include a gas injection unit for discharging the inert gas into the housing.

According to the scale removal device of a material according to the present invention, it is possible to improve the quality of a product by providing an inert gas to the material to block the generation of nitrogen oxides on the surface of the material.

In addition, according to the present invention, by measuring the temperature of the surface of the material, it is possible to provide an inert gas uniformly on the surface of the material by adjusting the rotation angle of the inert gas supply of the scarfing part so that the inert gas is sprayed on the surface of the material according to the size of the flame. have.

In addition, according to the present invention, it is possible to improve the surrounding environment by preventing the generation of nitrogen oxides.

In addition, according to the present invention, it is possible to prevent an adverse effect on the product quality by providing an inert gas, which is a stable gas that does not cause a chemical reaction, to the material.

1 is a conceptual diagram schematically showing an apparatus for removing a scale of a material according to an embodiment of the present invention.
2 is a side view schematically showing an apparatus for removing a scale of a material of a material according to an embodiment of the present invention.
Figure 3 is a first operation diagram schematically showing the operation of the scale removing device of the material according to an embodiment of the present invention.
Figure 4 is a second operation diagram schematically showing the operation of the scale removing device of the material according to an embodiment of the present invention.

Hereinafter, an embodiment of a scale removing device of a material according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition of these terms should be made based on the contents throughout the specification.

1 is a conceptual view schematically showing a scale removing device of a material according to an embodiment of the present invention, Figure 2 is a side view schematically showing a scale removing device of a material according to an embodiment of the present invention, Figure 3 Is a first operation diagram schematically showing the operation of the descaling device of a material according to an embodiment of the present invention, and FIG. 4 is a second operation schematically showing the operation of a descaling device of a material according to an embodiment of the present invention It is working too.

1 to 4, the scale removing device of a material according to an embodiment of the present invention includes a housing 100, a roller part 200, and a scarfing part 300.

The housing 100 includes an entrance 110 and an exit 120, and is formed as an empty space therein. The entry part 110 is a material S, and is formed to be opened on one side (left side in FIG. 1) of the housing 100. The exit 120 is that the material S enters and is formed to be opened on the other side of the housing 100 (the right side in FIG. 1 ). The entrance 110 and the exit 120 are formed in a size in which the material S enters or exits.

A plurality of roller parts 200 are arranged in the longitudinal direction (horizontal direction in reference to FIG. 1) of the housing 100 on the inner lower side of the housing 100 to move the material S. The roller unit 200 allows the material S entered through the entrance 110 to advance through the entrance 120.

The scarfing part 300 removes the scale from the material S that has entered the housing 100. The scarfing unit 300 provides oxygen gas (O ₂ ) and LNG to the material (S) to melt the surface of the material (S) by a flame to remove the scale on the surface of the material (S).

The scarfing unit 300 includes a scarfing block unit 310, a burner unit 320, an inert gas supply unit 330, and an angle adjusting unit 340. The scarfing block unit 310 is installed in the housing 100, and a burner unit 320, an inert gas supply unit 330, and an angle adjusting unit 340 are mounted.

The burner part 320 is mounted on the scarfing block part 310 and provides a flame to the material S to remove the scale from the material S. The burner part 320 discharges oxygen gas and LNG to the material S. A flame is formed on the surface of the material S by the combustion action of oxygen gas and LNG, and the scale of the surface of the material S is melted and removed by the flame. The burner part 320 is fixed to the scarfing block part 310 at a set angle.

The inert gas supply unit 330 is rotatably mounted on the scarfing block unit 310 and rotates to provide an inert gas to the surface of the material S. The inert gas supply unit 330 provides an inert gas to the surface of the material S, thereby minimizing the contact between the flame formed on the surface of the material S and the nitrogen inside the housing 100 to block the generation of nitrogen oxides. . In the present invention, the inert gas includes argon gas (Ar).

The angle adjusting unit 340 is a rotatable connection of the inert gas supply unit 330 to the scarfing block unit 310, and rotates the inert gas supply unit 330 clockwise or counterclockwise as shown in FIG. 1.

The angle of rotation of the inert gas supply unit 330 is adjusted in the scarfing block unit 310 according to the surface temperature of the material S. In addition, the amount of the inert gas provided in the inert gas supply unit 330 may be adjusted according to the surface temperature of the material S.

A plurality of temperature sensor units 800 are mounted on one side of the housing 100 (upper reference to FIG. 1 ). The temperature sensor unit 800 measures the surface temperature of the material S, and measures the average temperature of the surface of the material S or a specific location to calculate the size of the flame formed on the surface of the material S. The inert gas supply unit 330 supplies the inert gas to the material S while being rotated to correspond to the size of the flame calculated according to the surface temperature of the material S. The temperature sensor unit 800 may be formed of a non-contact sensor made of an infrared sensor or the like that is not in contact with the material (S).

The control unit 900 adjusts the rotation angle of the inert gas supply unit 330 according to the surface temperature of the material S measured by the temperature sensor unit 800 to adjust the size of the contact area between the inert gas and the surface of the material S To control. Each component described in the present invention controls operation in the control unit 900.

Since the production of nitrogen oxide (NOx) in the housing 100 is generated in a high temperature region of about 1,000° C. or higher, a large amount of nitrogen oxide (NOx) is generated by the flame provided by the burner portion 320 of the scarfing part 300. Can be generated. Therefore, it is possible to prevent the generation of nitrogen oxides (NOx) by adjusting the supply angle and the supply amount of the inert gas in the inert gas supply unit 330 so that the inert gas is injected into the hot flame region through the temperature sensor unit 800.

In the present invention, the control unit 900 receives data such as steel type and length of the material (S) entering the housing 100, sets the size of the flame according to the surface temperature of the material (S), and the temperature sensor unit The rotation angle of the inert gas supply unit 330 is adjusted according to the surface temperature of the material S received from the 800.

The apparatus for removing scale of a material according to the present invention further includes a gas circulation unit 400. The gas circulation unit 400 sucks an inert gas inside the housing 100 and provides an inert gas to the inert gas supply unit 330. By inhaling the inert gas in the housing 100 from the gas circulation unit 400 and providing it back to the inert gas supply unit 330, the amount of inert gas used can be reduced.

The gas circulation part 400 includes a collection part 410, a pump part 420, and a flow path part 430. The collecting unit 410 is mounted in communication with one side of the housing 100 (upper reference to FIG. 1 ), and collects by collecting inert gas inside the housing 100.

The pump unit 420 is connected to the collection unit 410 and pumps inert gas to be sucked into the collection unit 410. The flow path part 430 allows the inert gas collected by the collecting part 410 to be moved to the gas supply part 330. The flow path portion 430 is made of a flexible flexible pipe.

The apparatus for removing scale of a material according to the present invention further includes an urea water supply unit 500. The urea water supply unit 500 is mounted on one side of the housing 100 (left side in FIG. 1) and supplies urea water to the interior of the housing 100. The urea water supplied from the urea water supply unit 500 is made of a mixture of urea ((NH ₂ ) ₂ CO) and water (H ₂ 0). In the present invention, urea water is supplied to the interior of the housing 100 in a spraying manner from the urea water supply unit 500.

As described above, the urea water sprayed from the urea water supply unit 500 to the interior of the housing 100 is combined with nitrogen monoxide (NO) among nitrogen oxides inside the housing 100, and nitrogen (N ₂ ) and carbon dioxide ( CO ₂ ), it is possible to reduce the nitrogen oxide inside the housing 100.

The scale removing device of the material according to the present invention further includes an air curtain part 600. The air curtain unit 600 is mounted on the entrance 110 and the exit 120, respectively, and discharges inert gas to block air from entering the entrance 110 and the exit 120.

The air curtain part 600 includes a curtain pipe part 610 and a curtain nozzle part 620. The curtain pipe part 610 is mounted on the outer surface of the housing 100 and supplies an inert gas. The curtain pipe part 610 is disposed in the horizontal direction of the housing 100 on the outer surface of the housing 100. The curtain pipe part 610 communicates with a supply source (not shown) that supplies an inert gas from the outside.

A plurality of curtain nozzle units 620 are arranged along the longitudinal direction (the left and right directions in FIG. 2) of the curtain piping unit 610 in the curtain piping unit 610, and are opened at the entrance 110 or the exit 120. The inert gas is discharged upward or downward. That is, the curtain nozzle unit 620 discharges an inert gas from the upper side or the lower side to form a curtain-like film formed by an inert gas in the opened inlet 110 or outlet 120 to block the inflow of air. In the present invention, the curtain nozzle unit 620 may be inert gas discharged from the upper side to the lower side, only the lower side to the upper side, and the lower side to the upper side from the upper side to the lower side from the entrance 110 or the exit 120.

Blocking the inflow of air from outside into the opening 110 or opening 120 by discharging inert gas from the entrance 110 or opening 120 opened in the curtain nozzle unit 620 to the upper or lower side Therefore, the nitrogen gas in the air is blocked from flowing into the housing 100.

The apparatus for removing scale of a material according to the present invention further includes a gas injection unit 700. A plurality of gas injection units 700 are disposed along one side of the housing 100 (upper reference to FIG. 1) along the longitudinal direction of the housing 100, and discharge inert gas into the housing 100. The gas injection unit 700 discharges an inert gas from the upper side to the lower side of the housing 100. As the inert gas used in the present invention, argon gas is used as described above. Since the density of argon gas (1.784 g/L) is heavier than the density of air (1.293 g/L), argon gas, which is an inert gas, is provided to the material (S) at the lower side of the housing 100 where the flame is formed. Argon gas is applied to the entire surface of S) and nitrogen oxide production can be blocked.

The operation of the scale removing device of a material according to an embodiment of the present invention will be described with reference to FIGS. 3 and 4.

Referring to FIG. 3, inert gas is continuously discharged from the air curtain unit 600 at the entrance 110 and the exit 120 of the housing 100, respectively. Inside the housing 100, urea water is supplied from the urea water supply unit 500 to the inside of the housing 100.

In addition, the upper side of the housing 100 discharges an inert gas from the gas injection unit 700 toward the lower side of the housing 100. As described above, the inert gas is distributed throughout the housing 100.

The inert gas distributed inside the housing 100 is re-supplied to the inert gas supply unit 330 through the gas circulation unit 400.

The temperature sensor unit 800 measures the surface temperature of the material S, and measures the average temperature of the surface of the material S or a specific location to calculate the size of the flame formed on the surface of the material S. The inert gas supply unit 330 is rotated at a first set angle θ1 (rotated clockwise based on FIG. 3) to correspond to the size of the flame calculated according to the surface temperature of the material S, and the inert gas is applied to the material S Supplies.

Referring to FIG. 4, the temperature sensor unit 800 measures the surface temperature of the material S, and measures the average temperature of the surface of the material S or a specific location to measure the flame formed on the surface of the material S. Calculate the size of. The size of the flame formed on the surface of the material S is largely formed by the supplied oxygen and LNG. The inert gas supply unit 330 rotates at a second set angle θ2 rotated more than the first set angle θ1 to correspond to the size of the flame calculated according to the surface temperature of the material S (clockwise based on FIG. 4) Rotation) to supply the inert gas to the entire surface of the material (S).

According to the scale removing device of a material according to the present invention, the inert gas is provided to the material S to block the generation of nitrogen oxides on the surface of the material S, thereby improving the quality of the product.

In addition, according to the present invention, the rotation angle of the inert gas supply unit 330 of the scarfing unit 300 is adjusted to measure the temperature of the surface of the material S so that inert gas is sprayed on the surface of the material S according to the flame size. By doing so, it is possible to uniformly provide an inert gas to the surface of the material S.

In addition, according to the present invention, it is possible to improve the surrounding environment by preventing the generation of nitrogen oxides.

In addition, according to the present invention, it is possible to prevent the adverse effects on the quality of the product by providing an inert gas that is a stable gas that does not generate a chemical reaction in the material (S).

The present invention has been described with reference to the embodiment shown in the drawings, but this is only exemplary, and those skilled in the art to which the art belongs can various modifications and equivalent other embodiments from this. Will understand. Therefore, the true technical protection scope of the present invention should be defined by the claims.

100: housing 110: entrance
120: exit 200: roller portion
300: scarfing unit 310: scarfing block unit
320: burner unit 330: inert gas supply unit
340: angle adjustment unit 400: gas circulation unit
410: collection unit 420: pump unit
430: Euro section 500: Urea water supply section
600: air curtain section 610: curtain piping section
620: curtain nozzle unit 700: gas injection unit
800: temperature sensor unit 900: control unit
S: material

Claims (8)

A housing having an entrance through which a material enters and an entrance through which the material enters;
A roller unit for moving the material; And
It includes a scarfing portion for removing the scale from the material entered into the housing,
The scarfing unit,
A scarfing block portion installed in the housing;
A burner part mounted on the scarfing block part and providing a flame to the material to remove scale from the material; And
And an inert gas supply part rotatably mounted on the scarfing block part and providing an inert gas to the surface of the material while being rotated.
According to claim 1,
The inert gas supply unit is a scale removal device of the material, characterized in that the angle of rotation in the scarfing block portion is adjusted according to the surface temperature of the material.
According to claim 2,
The housing is equipped with a temperature sensor for measuring the surface temperature of the material,
Device for removing the scale of a material, characterized in that the rotation angle of the inert gas supply part is adjusted according to the surface temperature of the material measured by the temperature sensor.
According to claim 1,
And a gas circulation unit that sucks the inert gas inside the housing and provides the inert gas to the inert gas supply unit.
According to claim 4,
The gas circulation unit,
A collecting part mounted on the housing and collecting the inert gas inside the housing;
A pump part connected to the collecting part and sucking the inert gas into the collecting part; And
And a flow path portion configured to move the inert gas collected by the collecting portion to the gas supply portion.
According to claim 1,
An apparatus for removing scale from a material mounted on the housing and further comprising an urea water supply unit supplying urea water into the housing.
According to claim 1,
The apparatus for removing scales of materials, which is mounted to the entrance and the exit, and further includes an air curtain unit that discharges the inert gas to block the inflow of air to the entrance and the exit.
According to claim 1,
A device for descaling a material, characterized in that a plurality of gas injectors for discharging the inert gas into the housing is disposed on one side of the housing along a longitudinal direction of the housing.

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