KR101092070B1 - Device for agitation of slag of metal melts - Google Patents

Abstract

The present invention relates to a stirring device of the slag, and installed to reciprocate and rotate, the drive unit including a lance in which the gas supply pipe is built-in, and the blade and the gas supply pipe which is selectively positioned in the slag while rotating at the same time with the lance of the slag It consists of a stirring part including a nozzle for ejecting inert gas so as to float from the lower side, it ensures a robust and stable operation of the lance, facilitate the recovery of chromium oxide, improve the expensive chrome recovery efficiency, improve the stirring power The uniformity of the components of the molten metal is increased.

 Slag, agitator, valuable metal, lance

Description

Device for agitation of slag of metal melts             

1 is a schematic use state of the stirring apparatus according to a preferred embodiment of the present invention,

Figure 2 is a perspective view of the stirring device of Figure 1,

3 is an internal perspective view of the lance support casing shown in FIG.

4 is an internal perspective view of the blade housing shown in FIG.

4A and 4B are exemplary views showing another embodiment in which a blade is shown.

<Description of Symbols for Main Parts of Drawings>

10 ... Stirring device 20 ...

40 Stirring ... 41 Smelt Stirring Head,

44.Nozzle 45 ... Blade.

The present invention relates to an apparatus for agitating slag formed in a molten metal, and more particularly, to an apparatus for agitating a slag for agitating slag forming a surface of a molten metal generated in an electric furnace.

In general, stainless steel is a chromium-added steel, chromium-nickel-added steel, and chromium-nickel-molybdenum-added steel. In the production of conventional products, nickel usually has no affinity with oxygen and thus does not react with oxygen. , Chromium has a strong affinity with oxygen, so the main energy source for the melting of stainless steel scrap and chromium, which is the main raw material of stainless steel, is electricity, but chromium oxide due to the oxidation reaction of oxygen and chromium ( 2Cr] +3 [O] = Cr ₂ O ₃ ) caused the adverse effects on the environment during the processing of valuable metals as a by-product of stainless steel due to the occurrence of 2Cr] +3 [O] = Cr ₂ O ₃ ) and the loss of chromium raw materials and cost increase. When the molten metal with chromium oxide is charged into the refining furnace of the refining process, it is difficult to operate due to refractory erosion and increased decarburization time. The.

Therefore, a method of blowing inert gas through the lance and burning heat of the supporting burner in order to reduce chromium oxide in an electric furnace has been proposed.

However, the surface temperature of the forming slag in the furnace is increased by the inert gas blown by the lance, so that the metal droplet is easily recovered, but the recovery of chromium oxide is not easy. It is good to be injected into slag effectively because the blowing pressure is maintained at 6 bar or more, but durability of the lance is guaranteed at 1 bar or less, so it is difficult to stably and continuously blow powder carbon, and the lance is deformed by the high temperature in the furnace. There was a problem.

The present invention devised in view of the above problems, the slag by the blade is rotated simultaneously with the lance installed so that the melt is completed in the electric furnace and the molten metal is tapping into the ladle, and the ladle is rotated when placed in a predetermined position in the furnace enclosure The chromium oxide in the slag is forced to react with the molten metal through the forced stirring and floating in the slag to facilitate the recovery of the chromium oxide, thereby improving the efficiency of expensive chrome recovery and improving the stirring power. It is an object of the present invention to provide a stirring device for molten slag in which uniformity is raised.

The present invention for achieving the above object, the stirring device for stirring the slag formed on the molten surface of the ladle is in communication with the external source to the lance installed to reciprocate along the guide beam installed in close proximity to the ladle A drive unit having a built-in gas supply pipe and configured to rotate the lance by the reducer; The blade housing is hermetically mounted to be rotated simultaneously with the lance, and the blade is fixed to the outer circumferential surface of the blade housing, and a nozzle for ejecting the gas flowed from the gas supply pipe to the molten stirring head passing through the blade housing is located below the slag. It is made to include; a stirring portion formed to be embedded, wherein the blade is rotated is located in the slag layer of the molten metal, the gas ejected from the nozzle is made to rise to the slag layer is made so that the slag is stirred. And an inclined surface is mounted to the blade housing inclined in the height direction.

The nozzle is embedded inclined so that the gas flowing from the gas supply pipe has the maximum blowing pressure.

The drive unit is installed in the guide beam and the lance car reciprocated by a drive reducer, the lance support casing is fixed to the lance and the one end of the lance is inserted and rotatably mounted, and the inserted one end of the lance A lance reduction gear having a formed lance rotation gear, a lance reduction gear meshed with the lance rotation gear, and mounted to the lance support casing to rotate the lance, and in contact with the outer surface of the lance to secure the center of rotation of the lance. A plurality of lance support rolls, a lance support roll bracket fixed to the lance support casing while the lance support roll is rotatably mounted, and an internal gas supply pipe inserted into the lance to communicate with an external gas supply pipe communicating with an external source. The installed swivel joint is further included.

The stirring unit is mounted to the one end opening of the gas supply pipe inserted into the lance while being embedded in the molten stirring head and the other end is made of a tube equipped with a nozzle.

Hereinafter, the stirring apparatus of the molten slag according to the present invention will be described in detail with reference to the accompanying drawings.                     

1 to 4 is a state of use, a perspective view and an enlarged view of the main portion of the stirring apparatus according to the present invention.

Stirring device 10 of the molten slag according to the present invention is a drive unit 20 for controlling the reciprocating movement and rotation of the lance 21, and infiltrated into the molten metal by the drive unit 20 to agitate the slag of the molten metal and inert gas It consists of a stirring portion 40 is made to rise to the slag.

The drive unit 10 is electrically fixed to the guide beam 22 on the work deck 100, the lanscape 23 to be reciprocated by the variable length of the wire rope 23a along the guide beam 22 Is installed, while the cable wheel 28 and the drive reduction gear 24 is mounted on the guide beam 22, the wire rope 23a and the power cable 27 having a variable length by the drive reduction gear 24 And a guide roll 26 for securing the position of the gas supply pipe 25, the power cable 27 and the gas supply pipe 25 are inserted into the lance reduction motor 31 and the lance 21, respectively. The length supplied depends on the moving distance of the support casing 32.

The gas supply pipe 25 is installed to be in communication with the internal gas supply pipe 25 is coupled to the swivel joint 33 is inserted into the lance support casing 32, the external gas supply pipe 25 in communication with the gas supply source, The swivel joint 33 is coupled to the swivel fixing flange 34 coupled with the upper end of the lance 21, the lower end of the lance 21 is unionized with the tube 43 to be described later, this union coupling is made selectively Union fastening groove (21b) is formed in the lance (21).                     

In addition, one end of the lance 21 is inserted into and coupled to the lower portion of the lance support casing 32, and a molten stirring head 41 formed as a castable is mounted to the lower portion of the lance 21, A blade housing 42 having a plurality of blades 45 mounted on an outer surface thereof is coupled to the molten stirring head 41.

The blade 45 is inclined from the vertical to the blade housing 42 by a predetermined angle (θ °), and a predetermined inclined side 45a and an inclined side surface 45b are formed. The inclined side 45a may designate a shape of the blade 45, that is, a shape including a triangle, a square, a rhombus, and the like most suitable for stirring, and in the embodiment, a triangle is adopted and illustrated, and the inclined surface 45b is Formed on the surface corresponding to the thickness of the blade 45 as well as can be formed over all sides, in the embodiment is shown to be formed on one surface corresponding to the thickness.

The angle θ °, the inclined side 45a, and the inclined surface 45b of the blade 45 are to allow the blade 45 to be rotated to be smoothly rotated with minimal force from the slag.

A lance reduction gear motor 31 is coupled to the lance support casing 32 coupled in a divided structure so as to constantly reduce the rotation speed of the lance 21, and the lance reduction gear 31a of the motor 31 and the lance. The lance rotary gear 21a formed integrally with the 21 is engaged to apply rotational force to the lance 21, and the lower end of the lance support casing 32 for the firm support of the lance 21 is A plurality of lance support roll 35a is in contact with the outer surface of the lance 21 so that it can be firmly gripped during rotation and movement, the lance support roll 35a is rotatably mounted to the lance support roll bracket 35 , The lance support roll bracket 35 is fixed to the inner surface of the lance support casing 32, the bushing 36 and the lance support bearing 37 is mounted to the lower portion of the lance support roll bracket (35).

On the other hand, the stirring portion 40 is the lance 21 is coupled to the blade housing flange 42a, the blade housing flange 42a is coupled via the blade housing 42 and the molten stirring head ring 41a, The molten metal stirring head 41, which is bound to the molten metal stirring head ring 41a, is positioned to penetrate the blade housing 42 and communicates with the gas supply pipe 25 in the molten metal stirring head 41. 43 and a nozzle 44 in communication with the tube 43 are embedded.

The nozzle 44 may be installed at an angle that is opposite to the installation angle of the blade 45, and the nozzle 44 is located below the blade 45 so that an inert gas is blown through the nozzle 44 to the lower side of the slag. It is preferable to incline at an optimal angle (δ °) so that the gas is ejected while being floated as far as possible, and the nozzle 44 may be perpendicular to the tube 43.

Hereinafter, the operation of the slag stirring device according to the present invention will be briefly described.

When the ladle 130 mounted on the molten ladle transport cart 120 in the include 110 is completed by tapping in an electric furnace and positioned below the lance 21, the ladle 23 is driven by the drive reducer 24. At the same time as the lance 21 is lowered, the blade 45 is located in the slag of the molten metal.

At this time, the lance 21 is firmly supported from molten buoyancy applied to the lance 21 by the lance support roll bracket 35, the lance support roll 35a, and the bushing 36 and the lance support bearing 37. do.

The lance reduction gear 31a and the lance rotation gear 21a of the lance reduction gear motor 31 are engaged with each other so that the rotation force is applied to the blade 45 to rotate, and the inert gas flowing from the gas supply pipe 25 is nozzle ( 44) through the lower part of the slag is ejected and floated, the active stirring of the slag is achieved.

On the other hand, the torsion during rotation of the lance 21 is prevented by the swivel joint (33), and the gas supply pipe (25) and when replacing the molten stir head 41 and the blade (42) damaged and worn by the stirring of the slag The coupling of the tube 43 is easily released through the union fastening groove 21b.

According to the present invention configured as described above, a constant rotational force is added to the lance by the engagement of the lance deceleration gear and the lance rotation gear, and firmly gripped when the lance is raised and lowered by the lance support roll and the lance support roll bracket. It is firmly supported from the melt buoyancy during operation of the lance by means of a bushing and a lance support bearing.

In addition, due to the forced stirring of the slag by the blade and the inert gas is floated from the lower side of the slag, the active reaction of the slag is performed to facilitate the recovery of chromium oxide, thereby improving the efficiency of expensive chrome recovery and melting by improving the stirring power. There is an effect that the component homogeneity of is increased.

Claims (4)

An apparatus for stirring slag formed on the molten surface of a ladle, A driving unit having a gas supply pipe communicating with an external source in a lance installed to be rotated by a reducer while reciprocating along a guide beam installed close to the ladle; The blade housing is hermetically mounted to be rotated simultaneously with the lance, and the blade is fixed to the outer circumferential surface of the blade housing, and a nozzle for ejecting the flow of gas from the gas supply pipe to the molten stirring head fixed through the blade housing is provided at the bottom. Buried agitated portion; Is made, including, The blade is located in the slag layer of the molten metal is rotated, the stirring device of the slag made so that the gas ejected from the nozzle is raised to the slag layer and the slag is stirred. The method of claim 1, The drive unit is installed in the guide beam and the lance car reciprocated by a drive reducer, the lance support casing is fixed to the lance and the one end of the lance is inserted and rotatably mounted, and the inserted one end of the lance A lance reduction gear motor having a formed lance rotation gear, a lance reduction gear meshed with the lance rotation gear, and mounted to the lance support casing to rotate the lance, and in contact with the outer surface of the lance to secure the center of rotation of the lance. A plurality of conformal lance support rolls, a lance support roll bracket fixed to the lance support casing while the lance support roll is rotatably mounted, and an internal gas supply pipe inserted into the lance communicate with an external gas supply pipe communicating with an external source. Slag stirring apparatus, characterized in that further comprises a swivel joint is installed to be. The method of claim 1, The agitation unit is a slag agitation device, characterized in that further comprises a tube embedded in the molten stirring head while the one end opening of the gas supply pipe inserted into the lance and the nozzle is mounted on the other end. The method of claim 1, The blade is formed with an inclined side and the inclined surface, the agitation apparatus of the slag, characterized in that mounted inclined laterally with respect to the height direction in the blade housing.

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