KR200336377Y1 - Preheater for Pony Ladle - Google Patents

Abstract

The present invention is a device for the preheating of the pony ladle used in the vacuum ingot process of manufacturing the ingot which is a forging material when casting a large rotor forging. According to the present invention, there is provided a preheating device for preheating the pony ladle, the burner having a predetermined capacity capable of preheating the temperature of the pony ladle to the molten steel injection temperature; A fuel supply device supplying fuel to the burner; A sensor installed inside the pony ladle to sense a temperature of the pony ladle; And a control panel for determining the amount of heat to be supplied from the burner and controlling the amount of fuel supplied from the fuel supply device to the burner in comparison with the required pony ladle temperature predetermined according to the temperature measured by the sensor. A preheating device for the pony ladle is provided. According to the present invention, it is easy to control the temperature in the pony ladle of the injection molten steel to make the injection temperature deviation within the required molten steel injection temperature range when manufacturing the super-large ingot, it is possible to perform a complete temperature management during molten steel injection.

Description

Preheater for Pony Ladles {Preheater for Pony Ladle}

The present invention relates to a dedicated device for preheating the pony ladle used in the vacuum ingot process for casting ingots for making large rotors.

Figures 1a to 1e is a diagram briefly showing the process of manufacturing the ingot using the top coarse method.

As shown in FIG. 1A, molten steel and molten iron are melted in the electric furnace 1 to make molten steel. As shown in FIG. 1B, molten steel made in the electric furnace 1 is poured into a ladle 2. Then, a scouring process as shown in FIG. 1C is performed, followed by a rinsing and Ar blowing process as shown in FIG. 1D. Then, as shown in FIG. 1E, the molten steel in the ladle 2 is poured through a pony ladle 3 into a vacuum ingot mold 4 and solidified to ingot 5. Cast).

Before pouring molten steel into the pony ladle 3, the pony ladle 3 is preheated to prevent breakage of the refractory in the pony ladle 3 due to a sudden temperature change and to remove moisture therein.

Conventionally, when preheating and drying, a burner is placed in the pony ladle 3 and connected with an LNG pipe to heat the pony ladle 3. In this case, when molten steel is introduced at a temperature of about 200 ° C. in the pony ladle 3, there is a problem in that the temperature variation between the temperature of the molten steel and the refractory in the pony ladle 3 is large. In particular, since the vacuum ingot injection must be injected at a constant injection temperature, a low injection temperature promotes the generation of oxidation products of molten steel and accelerates the solidification of the injection molten steel, thus adversely affecting the quality of the super-large ingot. Therefore, there is a need for a dedicated pony ladle preheater that can further increase the temperature in the pony ladle.

The present invention was developed to solve the above problems, an object of the present invention is to develop a dedicated preheating device suitable for pony ladle preheating.

1a to 1e are simplified views illustrating a process of fabricating an ingot using the upper coarsening method.

2 is a view illustrating preheating the pony ladle is installed by the pre-heating device dedicated to pony ladle according to the present invention

<Explanation of symbols for the main parts of the drawings>

1: electric furnace 2: ladle

3: pony ladle 4: ingot mold

5: ingot 6: burner

7: temperature sensor 8: fuel supply

9: control panel

According to the present invention, there is provided a preheating device for preheating the pony ladle, the burner having a predetermined capacity capable of preheating the temperature of the pony ladle to the molten steel injection temperature; A fuel supply device supplying fuel to the burner; A sensor installed inside the pony ladle to sense a temperature of the pony ladle; And a control panel for determining the amount of heat to be supplied from the burner and controlling the amount of fuel supplied from the fuel supply device to the burner in comparison with the required pony ladle temperature predetermined according to the temperature measured by the sensor. A preheating device for the pony ladle is provided.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

2 shows a preheating device for a pony ladle according to the present invention.

As shown in FIG. 2, the preheating device for pony ladle according to the present invention includes a burner 6 for heating the pony ladle, a temperature sensitive sensor 7 for sensing a temperature inside the pony ladle, and the temperature detecting sensor ( It consists of a control panel 9 for controlling the amount of heat to be supplied from the burner 6 according to the temperature measured in 7) and a fuel supply device 8 for supplying fuel to the burner 6.

The preheating device for the pony ladle is provided with the burner 6 on top of the pony ladle 3, and as shown in FIG. 2 for measuring the temperature of the refractory in the pony ladle 3, A, B And measuring temperature sensors at four points, C and D, and based on the measured temperature values, the control panel 9 measures the temperature deviation ΔT from the required temperature data determined through experiments (ie, The difference between the measured temperature and the set temperature) is determined to determine the amount of heat to be supplied by the burner 6 and to control the amount of heat supplied to the burner 6. The fuel supply amount of the fuel supply device 8 is controlled together to control the amount of heat to be supplied from the burner.

Although LNG is illustrated in FIG. 2 as a fuel supplied from the fuel supply device, a fuel that may be used in the present invention is not limited thereto.

For example, when manufacturing a 510 ton mono block rotor ingot, a preheat burner is installed on top of a 50 ton pony ladle for 6 hours before and preheat ignition is performed. The burner capacity is determined so that the temperature of the refractory inside the pony ladle can be preheated to 500 degrees Celsius.

According to the dedicated preheating device as described above, it is easy to control the temperature in the pony ladle of the injection molten steel to make the injection temperature deviation within the required molten steel injection temperature range when manufacturing the super-large ingot, it is possible to manage the complete temperature during molten steel injection. When the injection temperature is high when the molten steel is injected into the mold, the internal state of the mold mold may be locally damaged, and since the scum is formed on the upper part of the molten steel, the quality of the large ingot may be affected. It is very important to do.

According to the present invention, it is easy to control the temperature in the pony ladle of the injection molten steel to make the injection temperature deviation within the required molten steel injection temperature range when manufacturing the super-large ingot, it is possible to perform a complete temperature management during molten steel injection.

In the above, specific preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiment, and any person having ordinary knowledge in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the utility model registration claims. Would be possible.

Claims (2)

Preheating device for preheating the pony ladle, A burner having a predetermined capacity capable of preheating the temperature of the pony ladle to a molten steel injection temperature; A fuel supply device supplying fuel to the burner; A temperature sensor installed inside the pony ladle to sense a temperature of the refractory in the pony ladle; And And a control panel for determining the amount of heat to be supplied from the burner and controlling the amount of fuel supplied from the fuel supply device to the burner in comparison with the required pony ladle temperature predetermined according to the temperature measured by the sensor. A preheating device for pony ladle, characterized in that. The preheating device of claim 1, wherein a plurality of the temperature sensors are installed at predetermined positions on the refractory of the pony ladle.