KR101503335B1 - Apparatus for supplying ladle filler - Google Patents

Abstract

Disclosed is a ladle filler supply apparatus. The ladle filler supply apparatus according to an embodiment of the present invention comprises: an outer wall; an inner wall which is spaced from the outer wall and forms a storage space for storing a filler; and a filler storage box having an air passage between the inner and outer walls. The air passage heats the filler stored in the storage space as waste heat of a concurrent heating burner for pre-heating a ladle passes through the air passage.

Description

[0001] APPARATUS FOR SUPPLYING LADLE FILLER [0002]

The present invention relates to a ladle filler feeder used for filling a filler in a molten steel discharge pipe of a ladle during a continuous casting operation.

In general, the continuous casting process refers to a casting method in which molten steel is continuously injected into a mold having a predetermined shape, and the semi-solidified casting product is continuously drawn downward from the casting mold to produce a semi-finished product having various shapes .

The molten steel processed in the refining process in the continuous casting process is received in a ladle and is carried to the next process. In order to store the molten steel in the ladle, as shown in FIG. 1, The filler stored in the filler container 5 is introduced into the refining furnace 4 and the ladle 1 is heated by the heat accumulating burner 3 and then the ladle 2 is moved to the lower part of the refining furnace 4 at the time of introducing the refining furnace 4, The work is done by receiving the. At this time, the running ladle 1 is performing a heating operation in the heat-retaining burner 3 to maintain a temperature of about 900 degrees, and the waste heat from the heat-retaining burner 3 is released into the atmosphere.

In the continuous casting, the filler injected into the openings must be introduced in the form of water-free particles to form a satisfactory opening. The filler stored in the filler storage box (5) for a long time has a phenomenon that water in the air permeates the filler , When the molten steel is received while the water-containing filler is contained in the molten steel discharge pipe, the filler is bundled at the molten steel discharge pipe, which causes the poor hole.

To solve this problem, Korean Utility Model Publication No. 2000-0012408 discloses a method for removing moisture of a filler using a heater. However, in case of using a heater, since the filler near the heater and the heater is dried only due to the problem that the filler can not be completely removed, the filler containing water is injected into the molten steel discharge pipe, , There is a problem in that electric power is wasted when a large-capacity heater is used.

Patent Document 1: Korean Utility Model Utility Model Publication No. 2000-0012408 (published on July 5, 2000)

Embodiments of the present invention are intended to provide a ladle filler supplying apparatus capable of effectively removing water from a filler stored in a filter storage box.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other matters not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a ladle filler supplying apparatus for filling a filler in a molten steel discharge pipe of a ladle, comprising: an outer wall; And a ladle filler supply device for heating the filler stored in the storage space by passing through the waste heat of a heat-generating burner for preheating the ladle, Can be provided.

A waste heat intake pipe for transferring the waste heat of the heat accumulation burner to the air flow passage; and a waste heat exhaust pipe for exhausting the waste heat flowing along the air flow passage to the outside.

The waste heat exhausted from the waste heat exhaust pipe can be transferred to the suction port of the blower for supplying air to the heat-accumulating burner.

And a valve for controlling the supply of outside air to the outside air supply pipe, wherein the valve is provided on the basis of the measured value of the temperature sensor for sensing the temperature of the filler container, The supply of the outside air can be controlled.

The filler injection pipe may further include a filler injection pipe for discharging the filler, and a helical guide member for forming a discharge path of the filler may be provided in the filler injection pipe.

Embodiments of the present invention can significantly reduce power consumption by performing moisture removal of a filler stored in a filter storage box using waste heat of a heat-generating burner for preheating ladles.

FIG. 1 schematically shows a process for containing molten steel in a ladle during a conventional continuous casting process.
2 schematically shows a ladle filler feeder according to an embodiment of the present invention.
3 is a cross-sectional view of a filler container of a ladle filler feeder according to an embodiment of the present invention.
4 shows the waste heat flow of a ladle filler feeder according to an embodiment of the present invention.
FIG. 5 illustrates the waste heat flow of the ladle filler feeder when the filler container according to the embodiment of the present invention is above the set temperature.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art will be able to fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

FIG. 2 is a schematic view of a ladle filler feeder according to an embodiment of the present invention, and FIG. 3 is a cutaway perspective view of a filler container of a ladle filler feeder according to an embodiment of the present invention.

2 and 3, the ladle filler supplying apparatus 10 according to the embodiment of the present invention includes a refractory material particle (not shown) charged into a molten steel discharge pipe (not shown) formed at the lower portion of the ladle 20 for discharging molten steel And a filler storage 30 for storing a filler made up of sand (e.g., sand).

The filler storage box 30 includes an outer wall 31 forming an outer appearance and an inner wall 32 forming a storage space 34 spaced in the outer wall 31 to store the filler and an outer wall 31 and an inner wall 32 And an air flow path 33 formed between the air flow paths 33a and 33b.

The storage space 34 may be a space forming a hermetic structure to block the inflow of external air.

A waste heat absorbing tube 35 is formed at one side of the outer wall 31 and the waste heat of the heat retaining burner 40 for heating the ladle 20 flows into the air flow path 33. On the opposite side to the one side of the outer wall 31, A waste heat exhaust pipe 36 in which waste heat passing through the air flow path 33 is exhausted to the outside can be formed. The waste heat absorbing tube (35) and the waste heat exhaust tube (36) can be installed so as to communicate with the air flow path (33). A filler filler pipe 37 provided to communicate with the storage space 34 is formed at the lower side of the outer wall 31. When the filler contained in the storage space 34 is discharged to the filler filler pipe 37, A guide member 38 may be provided to form a spiral-shaped discharge path so as to be crushed.

The waste heat absorbing engine 35 is installed in the ladle 20 so that waste heat discharged into the atmosphere can be introduced into the ladle 20 while the ladle 20 is heated by the heat- Can be connected to the waste heat discharge pipe (41). The position where the filler is inserted into the ladle 20 and the position where the ladle 20 is preheated are a predetermined distance away so that the waste heat absorbing pipe 35 of the filler storage box 30 and the waste heat discharge pipe 41 of the heat- And can be connected to each other through a waste heat supply pipe 42 in the form of a duct.

The waste heat exhaust pipe 36 is a part where waste heat that has flowed through the air flow path 33 through the waste heat absorption pipe 35 flows through the air flow path 33 and the filler stored in the storage space 34 is exhausted, The waste heat exhausted through the waste heat exhaust pipe 36 can be connected to the suction port 51 of the blower 50 for supplying the external air to the heat boiler 40 through the waste heat recovery pipe 43. This is for the purpose of preheating the air supplied through the blower 50 for combustion of the heat accumulation burner 40 so as to improve the heating efficiency when the ladle 20 is heated by the heat accumulation burner 40. The waste heat absorbed into the blower 50 through the waste heat recovery pipe 43 can be supplied to the heat insulating burner 40 through the air supply pipe 44 connected to the discharge port 52 of the blower 50.

A branched outer air supply pipe 45 for supplying the outside air to the suction port 51 of the blower 50 is installed at the connection portion of the waste heat recovery pipe 43 connected to the suction port 51 of the blower 50 And the outside air supply pipe 45 may be provided with a valve 46 for controlling the flow rate of the outside air. The valve 46 may include a solenoid valve whose opening and closing is controlled by a PID controller based on the measured value of the temperature sensor 60 that senses the temperature of the filler storage box 30. [ This is because if the temperature of the filler storage box 30 is higher than the proper temperature for heating the filler, the coated portion of the filler contained in the storage space 34 may be damaged and the temperature sensed by the temperature sensor 50 may be higher than a certain temperature The outside air is introduced into the suction port 51 of the blower 50 through the opening of the valve 46. [

Hereinafter, the operation of the ladle filler supplying apparatus according to the embodiment of the present invention will be described.

4, the waste heat generated when the ladle 20 is preheated by the heat accumulation burner 40 is supplied to the waste heat absorption pipe 42 through the waste heat supply pipe 42 connected to the waste heat discharge pipe 41 by the blowing power of the blower 50 The waste heat discharged from the waste heat absorbing engine 35 flows through the air flow path 33 and heats the filler stored in the storage space 34 to evaporate the moisture of the filler. The waste heat discharged after flowing through the air flow path 33 flows into the blower 50 through the waste heat exhaust pipe 36 and the waste heat recovery pipe 43 and then supplied back to the heat insulating burner 40 through the air supply pipe 44 And circulated. As a result, a separate heater for heating the filler stored in the filler storage box 30 is not required, thereby improving energy efficiency.

5, when the temperature of the filler storage box 30 sensed by the temperature sensor 60 in the circulation process of the waste heat rises to a predetermined temperature or more, the valve 46 provided in the outside air supply pipe 45 is opened So that outside air can be introduced into the blower 50 to prevent the temperature of the filler storage box 30 from rising above a predetermined temperature.

Meanwhile, when the filler stored in the filler storage box 30 is dried and then introduced into the molten steel discharge port of the ladle 20, the piled filler is discharged through the filler inlet pipe 37 during the drying process, The filler that has been rolled while flowing along the discharge path of the molten metal 38 is discharged into the molten steel discharge port in the form of particles. Accordingly, it is possible to reduce the pitting failure which is generated when the pillar which is gathered when the water is removed is introduced into the molten steel discharge port.

The foregoing has shown and described specific embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims.

10: ladle filler feeder, 20: ladle,
30: filler container, 31: outer wall,
32: inner wall, 33: air duct,
34: storage space, 35: waste heat absorption engine,
36: waste heat exhaust pipe, 37: filler input pipe,
35: guide member, 40: heat-insulating burner,
46: valve, 50: blower,
60: Temperature sensor.

Claims (5)

A ladle filler feeder for filling a filler in a molten steel discharge pipe of a ladle,
A filler storage box having an outer wall, an inner wall spaced apart from the outer wall to form a storage space for storing the filler, and an air flow path formed between the outer wall and the inner wall;
A waste heat absorption engine for transferring the waste heat of the heat accumulation burner to the air flow passage; And
And a waste heat exhaust pipe through which the waste heat flowing along the air flow path is exhausted to the outside,
The air flow path heats the filler stored in the storage space through the waste heat of the heat accumulation burner for preheating the ladle, and the waste heat discharged from the waste heat exhaust pipe flows into the air inlet of the blower Delivered ladle filler feeder. delete delete The method according to claim 1,
An outside air supply pipe for supplying outside air to the suction port of the blower, and a valve provided in the outside air supply pipe for controlling the supply of outside air,
Wherein the valve regulates the supply of the ambient air based on a measured value of a temperature sensor that senses the temperature of the filler container. The method according to claim 1,
Further comprising a filler inlet pipe for discharging the filler,
Wherein the filler feed pipe is provided with a helical guide member forming a discharge path of the filler.

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