KR100880579B1 - Device for improving slag floating in hot metal - Google Patents

Abstract

The present invention relates to a device for promoting the rise of non-metallic inclusions contained in molten steel. The present invention is mainly composed of carbon, which is a conductor that does not melt even when deposited in molten steel (2) of high temperature, and has a hollow inside of a cylinder, and a plurality of fine pores. (122) is perforated, the carbon electrode rod 111 is connected to the breaker 113 for controlling the energization state on the power cable 112 wired to apply power; A nitrogen pipe 221 inserted into the carbon electrode rod 111 and provided to control the nitrogen supply by the valve 224; A flexible U-shaped flexible hose 223 having free bending and excellent durability at an upper end of the nitrogen pipe 221; and fixing the carbon electrode rod 111 to be lifted up and down, and at the tip thereof, the carbon electrode rod 111 ) Is penetrated and vertically coupled with a temperature measuring instrument 116 for measuring the temperature of the molten steel, the heat insulating cover 135 covering the upper surface of the molten steel ladle 1 is fixed by the chain 133, the A rear end hanger 331 detachably mounted with a weight 334 for maintaining equilibrium; A hydraulic generator 441 fixed to one end of the hanger 331, and a hydraulic cylinder for raising and lowering the carbon electrode rod 111 by raising and lowering the rod 443 by the hydraulic pressure. It relates to a molten steel non-metallic inclusion floating acceleration device, characterized in that comprising a (442). According to the present invention, by forcibly stirring the molten steel to promote the rise of non-metallic inclusions in the molten steel to completely remove the non-metallic inclusions in a short time to ensure the quality of the cold-rolled product, to reduce the settling time until the start of injection after the second refining to inhibit the increase in production It eliminates the factors and improves productivity such as extension of converter refractory life by preventing elected steel and high temperature steel to secure stationary time, and prevents the occurrence of large-sized playing by improving the error rate of molten steel during casting.

Description

Molten steel non-metallic inclusion floating accelerator {DEVICE FOR IMPROVING SLAG FLOATING IN HOT METAL}

1 is a front view showing the initial casting of the state containing a non-metallic inclusion in the conventional molten steel,

Figure 2 is a front view showing the end of the casting in the state containing a non-metallic inclusion in the conventional molten steel,

Figure 3 is a block diagram showing a molten steel non-metallic inclusion floating acceleration device according to the present invention,

Figure 4 is a detailed cross-sectional view showing a carbon electrode of the molten steel non-metallic inclusion floating acceleration device according to the present invention,

Figure 5 is an enlarged view of the main part of the molten steel non-metallic inclusion floating acceleration device according to the present invention,

6 to 8 is a state diagram used in the present invention promotion apparatus.

Explanation of symbols on the main parts of the drawings

1 .... ladle 2 .... molten steel

3 .... slag 4 .... nonmetallic inclusions

111 .... carbon electrode 112 .... power cable

113 .... breaker 116 .... temperature gauge

122 .... Microfiber 133 .... Chain                 

221 nitrogen valve 224 valve

331 .... hanger 332 .... insulator

334 ... weight 441 .... hydraulic generator

442 .... hydraulic cylinder 443 ... rod

The present invention relates to a device for promoting the rise of non-metallic inclusions contained in molten steel, and in particular, if the molten steel ladle is added to a continuous casting machine, the settling time until the expected injection start time after completion of treatment in the secondary refining facilities (RH, LF) And molten nonmetallic inclusions to promote the rise of molten steel nonmetallic inclusions by increasing the molten steel temperature due to the process atmosphere due to elected steels.

In general, when the molten iron is charged into the converter to complete the drilling, the molten steel is pulled out to the ladle and transported to the next process, the secondary refining facilities (RH, LF). After the mall (sit on), casting is performed.

At this time, if the molten steel (2) refined in the secondary refining equipment does not secure sufficient settling time until the start time of injection, as shown in Figure 1, the non-metallic inclusions (4) in the molten steel rises to separate the solidified slag (3) The casting operation will be started in a state that cannot be achieved.                         

Therefore, in the steelmaking process, in order to secure the floating time of the molten steel nonmetallic inclusions (4) due to the difference in specific gravity between the molten steel (2) and the nonmetallic inclusions (4), the stationary time is secured to 23 minutes on average, but the quality of the cold rolled product is better. Efforts are being made to secure more than 30 minutes of political time.

However, in order to increase the output, it is inevitable to minimize the settling time, which is the cause of deterioration of the quality of cold rolled steel.In order to secure sufficient settling time for the production of high quality cold rolled products, production is forced to be reduced. There is a difficulty that cannot satisfy both conditions of.

Therefore, in order to secure even a little more time, the converter is elected by maintaining the end temperature high, so that the steel grades and ships are difficult to change quickly due to sudden increase in production cost factors such as shortening the life of the converter refractory and equipment failure. This increases the throughput and increases the reloading of converters.

In particular, as shown in FIG. 2, if casting continues while the nonmetallic inclusions 4 in the molten steel are not completely injured, the molten steel nonmetallic inclusions 4 are preliminarily pulled out by the tundish 6 due to the vortex at the end of the casting. The sensor that detects this automatically blocks the sliding nozzle (not shown), which causes the casting to be stopped, resulting in a decrease in the molten steel error rate due to the occurrence of a large amount of remnant water, and the reprocessing cost now increased due to the occurrence of a playing block. Triggered.

Here, reference numeral '1' in the figure is a ladle.

 The present invention was created in view of the above-described problems of the prior art as described above. When molten steel is added to a continuous casting machine after the second refining, if the stationary time is insufficient by comparing and analyzing the standard stationary time and the actual stationary time, Since the non-metallic inclusions are contained in the molten steel, carbon electrode rods are inserted into the molten steel, and high pressure nitrogen is injected into a plurality of micropores to stir the molten steel to promote the rise of the nonmetallic inclusions in the molten steel. The purpose of the present invention is to provide a molten steel non-metallic inclusion floating acceleration device that can ensure the quality of cold rolled products by comparing and analyzing the molten steel temperature at the same time as casting.

The above object of the present invention is composed of carbon, which is a conductor that is not melted even when deposited on molten steel 2 of high temperature, and is hollow in a cylindrical shape, and a plurality of micropores 122 are perforated to apply power. A carbon electrode rod 111 to which a circuit breaker 113 for controlling the energization state is connected on the wired power cable 112; A nitrogen pipe 221 inserted into the carbon electrode rod 111 and provided to control the nitrogen supply by the valve 224;
At the upper end of the nitrogen pipe 221 is bent freely and excellent in durability U-shaped flexible hose 223; The carbon electrode rod 111 is fixed in such a way as to lift and lower while being insulated, and at the front end thereof, the carbon electrode rod 111 penetrates and is vertically coupled to the molten steel ladle while being provided with a temperature measuring instrument 116 measuring the temperature of the molten steel. A heat insulating cover 135 covering the upper surface of (1) is fixedly installed by the chain 133, and at the rear end thereof, a hanger 331 detachably mounted with a weight 334 for maintaining balance; A hydraulic generator 441 fixed to one end of the hanger 331, and a hydraulic cylinder for raising and lowering the carbon electrode rod 111 by raising and lowering the rod 443 by the hydraulic pressure. It is achieved by a molten steel non-metallic inclusion floating promoting device, characterized in that it comprises a (442).

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

As shown in Figure 3, the present invention is a cylindrical cylindrical rod inside the nitrogen tube 221, a plurality of micro-holes 122 is processed is a carbon electrode rod portion of the main component carbon (C) inserted into the molten steel ( 100); A nitrogen supply pipe part 200 for connecting the nitrogen tank 221 of the high pressure nitrogen tank and the carbon electrode rod 111; Hanger device 300 for moving the carbon electrode rod 111 up and down in accordance with the operation of the hydraulic cylinder (442); It consists of a hydraulic device 400 for operating the hydraulic cylinder 442.

As illustrated in FIG. 4, the carbon electrode rod part 100 includes a carbon electrode rod 111 made of a cylindrical rod containing carbon as a main component, which is a conductor that is not melted even when precipitated in molten steel of high heat, and a nitrogen tube therein. 221 is inserted, a plurality of fine holes 122 are perforated on the surface, the power cable 112 is provided with a circuit breaker ('113' of FIG. 3) that can control the high-voltage power supply The power cable 112 is fixed to a fixed base and has a structure in which a temperature measuring instrument 116 measures a temperature of molten steel.

In addition, the carbon electrode rod 111 is fixed on the hanger 331 by the insulator 332, and is disposed through the insulating cover 135 fixed to the hanger 331 by the chain 133 do.

As shown in FIG. 5, the nitrogen supply pipe part 200 is inserted into the carbon electrode rod 111 so that nitrogen (N ₂ ) may flow out but the molten steel may not communicate with the micropores 122 of the structure. The flexible hose 223 is freely bent and durable at the upper end of the nitrogen pipe 221 is connected, and a portion of the length of the nitrogen pipe 221 is a valve 224 to control the supply of nitrogen is installed.

As shown in FIGS. 3 and 5, the hanger device 300 includes a hanger 331 capable of raising and lowering while inserting and fixing the insulator 332 at the top of the carbon electrode rod 111 and the carbon electrode rod 111. Hanger 331 to maintain the balance by preventing the pull by the weight of the heat insulating cover 135 is installed as a cover to prevent heat dissipation of the molten steel and the chain 133 connecting it to the hanger 331 to guide the entry and exit of the molten steel It is composed of a weight 334 provided at the rear end.

3 and 5, the hydraulic device 400, the hydraulic generator 441 for generating the hydraulic pressure at the pressure of the oil, and the rod 443 at the pressure to raise and lower the carbon electrode rod 111 The lifting and lowering is composed of a hydraulic cylinder 442, and an upper end of the rod 443 is bolted orthogonally to an end near the weight 334 of the hanger 331.

The operating relationship of the present invention made of such a configuration is as follows.

6 to 8, when the ladle 1 loaded with the molten steel 2 by the molten steel crane is added to the continuous casting machine after the secondary refining is completed, the hydraulic generator 441 is operated to insulate the carbon electrode 111 and the thermal insulation rod. The cover 135 is lowered and one of the following four conditions is selected as an operation method to start casting.

When the settling time until the expected start time of injection of molten steel (2) added to the continuous casting machine and the set standard settling time is sufficient, the settling time is sufficient, and the temperature measuring unit 116 of the molten steel (2) is measured. When the molten steel temperature is higher than the temperature required for casting when the molten steel temperature is compared with the set standard molten steel temperature, the casting operation is performed as in the existing working method without operating the molten steel nonmetallic inclusion floating promotion device of the present invention.

When the stationary time is insufficient when the stationary time until the expected start time of injection of the molten steel 2 added to the continuous casting machine and the set standard stationary time is insufficient, the hydraulic generator 441 operates the carbon electrode 111. Is deposited on the molten steel (2) and the nitrogen valve (221) is opened to supply inert gas (N ₂ ) through the flexible hose (223) and the nitrogen pipe (221), and then the molten steel (2) by the micropores (122). The non-metallic inclusion floating promotion device of the present invention is operated so that the non-metallic inclusions 4 contained in the molten steel 2 are floated and adsorbed to the slag 3 above the molten steel 2 while being blown into the molten steel 2. After completely removing the non-metallic inclusions (4) in the molten steel (2), when the molten steel temperature measured by the temperature measuring instrument 116 and the set standard molten steel temperature is compared with the temperature required for casting is performed casting.

When the settling time is sufficient compared to the settling time until the expected start time of injection of the molten steel (2) added to the continuous casting machine and the set standard settling time, the molten steel is compared with the set settling temperature. When the temperature is low, the hydraulic generator 441 is operated to immerse the carbon electrode 111 in the molten steel 2 and raise the circuit breaker 113 to supply power to the carbon electrode 111 to arc between the carbon electrodes 111. By raising the temperature of the molten steel (2) up to a set standard molten steel temperature is carried out casting.

When the stationary time until the expected start time of injection of molten steel (2) added to the continuous casting machine and the set standard stationary time is short, the stationary time is insufficient, and the molten steel temperature measured by the molten steel temperature measuring instrument 116 is set. When the molten steel temperature is low when comparing the standard molten steel temperature, the hydraulic generator 441 is operated to deposit the carbon electrode rod 111 in the molten steel 2, and the nitrogen valve 221 is opened to inert nitrogen (N ₂ ). Through the flexible hose 223 and the nitrogen pipe 221 is injected into the molten steel (2) through the micro-holes 122, and at the same time, the circuit breaker 113 is raised to supply power to the carbon electrode rod 111, each carbon electrode rod 111 The molten steel is agitated by generating an arc between the two and the non-metallic inclusions (4) contained in the molten steel (2) are raised to be adsorbed to the slag (3) above the molten steel (2) and set the temperature of the molten steel (2) Non-metallic inclusion part of the present invention to be heated up Operating the device to facilitate fully removing the molten steel in the non-metallic inclusions (4) and performs the temperature increase after the casting operation.

When the casting operation is performed through any one of these conditions and the molten steel 2 descends below the carbon electrode rod 111, the hydraulic electrode 441 is operated to control the hydraulic cylinder 442 to control the carbon electrode rod 111. Ascending to the insulation cover 135, when the casting is completed, the hydraulic generator 441 is operated again to separate the carbon electrode rod 111 and the insulation cover 135 from the molten steel ladle (1) to prevent the continuous casting machine from rotating. When the next molten steel ladle comes to the casting position, the hydraulic generator 441 is operated again to lower the carbon electrode rod 111 and the thermal cover 135 to repeat the above operation.

As described in detail above, the present invention by forcibly stirring the molten steel to promote the rise of the non-metallic inclusions in the molten steel to completely remove the non-metallic inclusions in a short time to ensure the quality of the cold-rolled product, shortening the settling time until the start of injection after the second refining It eliminates the obstacles to increase the production volume, improves productivity such as extension of converter refractory life by preventing elected steel and high temperature steel to secure stationary time, and prevents the occurrence of large performances by improving the error rate of molten steel during casting. To provide.

Claims (4)

The main component is carbon, which is a conductor that is not melted even when deposited on the molten steel 2 of high temperature, and the inside of the cylinder is empty, and a plurality of fine holes 122 are perforated, and on the power cable 112 wired to apply power. A carbon electrode rod 111 connected to the circuit breaker 113 for controlling the energization state thereof; A nitrogen pipe 221 inserted into the carbon electrode rod 111 and provided to control the nitrogen supply by the valve 224; At the upper end of the nitrogen pipe 221 is bent freely and excellent in durability U-shaped flexible hose 223; The carbon electrode rod 111 is fixed in such a way as to lift and lower while being insulated, and at the front end thereof, the carbon electrode rod 111 penetrates and is vertically coupled to the molten steel ladle while being provided with a temperature measuring instrument 116 measuring the temperature of the molten steel. A heat insulating cover 135 covering the upper surface of (1) is fixedly installed by the chain 133, and at the rear end thereof, a hanger 331 detachably mounted with a weight 334 for maintaining balance; A hydraulic generator 441 fixed to one end of the hanger 331, and a hydraulic cylinder for raising and lowering the carbon electrode rod 111 by raising and lowering the rod 443 by the hydraulic pressure. The molten steel non-metallic inclusion floating promotion device, characterized in that comprising a (442). The method of claim 1, A molten steel nonmetallic inclusion promoting device, characterized in that an insulating insulator (332) is inserted into an upper end of the carbon electrode bar (111) to fix the carbon electrode bar (111) on the hanger (331). delete delete

Images