KR101267617B1 - Bit for opening tap hole of blast furnace - Google Patents

Abstract

The present invention relates to a bit for an opener of the blast furnace opening, the base 11 is mounted to the opener (5), coupled to the distal end of the base 11, the blade 23 is formed on the front surface and the base And a bit portion 21 having an insertion hole 25 formed therein in a direction to be coupled to the 11, wherein the bit portion 21 has the temperature measuring member 28 inserted into the insertion hole 25. Is coupled to the base 11.
The present invention has the advantage that it is possible to measure the heat of the melt is initially outgoing, it is possible to accurately determine the exit opening situation and to accurately grasp the depth of the exit opening.

Description

Bit for opening tap hole of blast furnace}

The present invention relates to a bit for opening of the blast furnace opening port, and more particularly, to a bit for opening of the blast furnace opening port configured to be able to measure the temperature of the melt in the process of opening the tap opening.

The blast furnace operation charges iron ore and coke from the top of the blast furnace, and then burns the coke with hot air sent from the tuyere to dissolve the iron ore. It is a series of processes to discharge through.

An object of the present invention is to provide a bit for the open air of the blast furnace outlet installed a temperature measuring member (TC, Thermal Coupler) therein to enable the temperature measurement of the molten iron in the process of opening the outlet.

According to a feature of the present invention for achieving the above object, the present invention is inserted into the base and the opening of the opening, the blade is formed on the front end of the base and the insertion hole in the direction coupled to the base And a formed bit part, wherein the bit part is coupled to the base with a temperature measuring member inserted into the insertion hole.

A thread is formed in the insertion hole, and a thread corresponding to the thread of the insertion hole is formed on the outer surface of the temperature measuring member.

The temperature measuring member has a length shorter than the length of the insertion hole.

A contact portion electrically connected to the temperature measuring member is formed at the tip of the base, and the contact portion is connected to an external recorder through a wire member planted inside the base.

The recorder is a recorder for recording the resistance of the temperature measuring member at a temperature.

Since the present invention can measure the heat of the melt initially drawn out by using a bit for the opener of the blast furnace opening, there is an effect that can determine how much heat loss the actual discharged molten iron has.

In addition, the present invention can measure the temperature in the process of opening the exit port, it is possible to accurately determine the situation of the exit port exposed to the high-temperature melt, there is an effect that can accurately determine the depth of the exit port.

1 is a working state showing the bit for the opener of the blast furnace opening opening opening the blast furnace opening.
Figure 2 is a perspective view showing a preferred embodiment of the bit for opening of the blast furnace outlet according to the present invention.
3 is an exploded (a) and combined (b) cross-sectional view of an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Bit opener bit 10 of the blast furnace opening of the present invention, as shown in Figure 3, by installing the temperature measuring member 28 therein to measure the temperature of the molten iron in the process of opening the outlet (3) .

Blast furnaces (10) are provided with three to four outlets, one of which is regularly repaired and the other two to three are circulated and used.

As shown in FIG. 1, the blast furnace starting operation is closed as the mud material m again when the discharge of the melt L is completed through the tap opening 3, and the mud material m used at this time is press-fitted. At the same time, it is fired by the heat inside, and the strength thereof is increased.

The bit 10 is a bar of about 70 mm in diameter used for opening the tap hole 3. The bit 10 is mounted on the opening machine 5 and rotated by driving of an operating motor (not shown) to excavate the mud material m filled in the tap hole 3. By the excavation of the mud material m, the initial tap opening 3 is opened and the melt L is ejected.

When the initial tap hole 3 is opened and the melt L is ejected, the melt L flows through the large turbidity, and the melt L is separated into molten iron and slag due to the difference in density.

The separated molten iron is transferred to the steelmaking process to undergo a refinery reaction at high temperature. In order for these series of processes to proceed sequentially, it is important not only to minimize heat loss in the molten iron but also to predict how much heat should be compensated through accurate furnace measurement.

The hot molten iron which flowed into the large hot water initially cannot avoid some heat loss in contact with the hot water or the hot water of the hot water.

The molten iron temperature is measured approximately mid-term when the thermal equilibrium is present in the middle of the drawing process. However, since it is impossible to measure the heat of the melt L that is initially drawn out, it is not known how much heat loss the melt L actually discharges.

Therefore, the bit 10 for the open air of the blast furnace opening port which can measure the temperature of a molten iron in the process of opening the exit opening 3 is provided.

As shown in Fig. 2 and 3, the bit opening 10 for the blast furnace opening is coupled to the base 11 and the front end of the base 11 is mounted on the opening 5, the blade 23 in front ) Is formed and includes a bit portion 21 having an insertion hole 25 formed in the direction in which the base 11 is coupled. The bit part 21 is coupled to the base 11 with the temperature measuring member inserted into the insertion hole 25.

The base 11 is made of stainless steel (SUS) to withstand high heat.

The insertion hole 25 formed in the bit portion 21 is a configuration for installing the temperature measuring member 28 in the bit 10. A thread 27 is formed in the insertion hole 25, and a thread 29 corresponding to the thread 27 of the insertion hole 25 is formed on the outer surface of the temperature measuring member 28. The threads 27 and 29 fix the temperature measuring member 28 to the insertion hole 25 without flow.

A thread 13 corresponding to the thread 27 of the insertion hole 25 is also formed on the outer peripheral surface of the tip 11 of the base 11. The thread 13 formed on the outer surface of the base 11 is configured to couple the temperature measuring member 28 to the insertion hole 25 and then to the front end of the base 11 to the insertion hole 27.

The temperature measuring member 28 may be a thermal coupler (TC) which is a sensor used for temperature measurement.

The temperature measuring member 28 has a length shorter than that of the insertion hole 25 so that the temperature measuring member 28 can be completely inserted into the insertion hole 25. This is to prevent the destruction of the temperature measuring member 28 due to the impact between the tap hole 3 and the bit 10 during the tapping process.

In addition, the temperature measuring member 28 is configured to be fully inserted into the insertion hole 25, so that the internal temperature measuring member 28 is protected and the temperature measuring member 28 is mounted even if the bit 10 is damaged during the starting process. And to free desorption.

In addition, the temperature measuring member 28 is configured to be fully inserted into the insertion hole 25 because the temperature of the melt (L) can be measured at the same position as the bit 10, the depth of the opening port (3) during opening The internal and external temperature can be measured continuously and the temperature of the melt (L) discharged initially without heat loss can be measured in real time.

In addition, it is possible to measure the temperature by the depth of the outlet opening (3) location, it is possible to measure the temperature when the outlet opening (3) is blocked, and to estimate the cause and location of the blockage of the outlet opening (3) using the measured data To make it possible. Depth means the depth filled with the mud material (m) blocking the exit port.

In addition, when the starting work is not good, for example, when the tap opening 3 is abnormally blocked, the edge 23 of the bit 10 may be crushed. In this case, the temperature from the bit 10 may occur. This is because it is possible to easily remove and replace the measuring member (28).

A contact portion 30 is formed at the tip of the base 11 to be in electrical contact with the temperature measuring member 28. The contact part 30 is connected to the external recorder 29 through the wire member 31 planted inside the base 11.

The contact unit 30 and the wire member 31 are intended to receive an electrical signal from the temperature measuring member 28 and transmit the electrical signal to the recorder 29. The recorder 29 may be a recorder 29 for recording the resistance of the temperature measuring member 28 to a temperature.

The operation of the present invention will be described below.

Opening bit 10 for the blast furnace opening of the present invention is composed of a base 11 to be mounted to the opener 5 and the bit portion 21 coupled to the tip of the base 11 and the bit portion 21 The insertion hole 25 having a thread 27 is provided to allow the temperature measuring member 28 to be inserted into the end of the bit 10.

Accordingly, when the operating motor of the opening machine 5 is driven and the base 11 is rotated, the bit part 21 rotates to open the outlet port 3, and the bit part having the temperature measuring member 28 in the process. 21 enters through the depth and measures the temperature of the melt L in real time.

Therefore, accurate molten iron temperature measurement is possible and depth depth can be grasped. The measurement of the molten iron temperature makes it possible to compensate for aging, and the depth depth identification makes it possible to estimate the next opening position.

That is, it is possible to determine how much heat loss the molten iron actually discharged by measuring the heat of the melt L that is initially drawn out, and it is possible to accurately determine the exit situation exposed to the hot melt L. This will allow you to accurately determine the depth of the exit.

It is important to understand the specific characteristics and situation of the exit depth because openness can be directly related to the volume of departure and affect the situation in the furnace. Operators may judge the exit situation according to their own operation and artificially adjust the depth of the exit.In this case, the depth of the opening and melt (L) will be influenced at the next departure. It is important to do.

In this way, the temperature at the point of time when the outlet is blocked can be measured by measuring the temperature for each position of the outlet depth, and the cause and location of the outlet can be estimated using this data.

The scope of the present invention is not limited to the embodiments described above, but may be defined by the scope of the claims, and those skilled in the art may make various modifications and alterations within the scope of the claims It is self-evident.

1: blast furnace 3: exit
5: open air 10: bit
11: Base 13: Mount Screw
21: Beat part 23: Day
25: insertion hole 27: screw thread
28: temperature measuring member 29: screw thread
30: contact part 31: wire member
29: recorder m: mud material
L: molten material (melting line + slag)

Claims (5)

delete A base mounted to the aperture;
Is coupled to the front end of the base and the blade is formed on the front and includes a bit portion formed with an insertion hole in the direction in which the base,
The bit part is coupled to the base with the temperature measuring member inserted into the insertion hole,
A screw thread is formed in the insertion hole, and a screw thread corresponding to the thread of the insertion hole is formed on an outer surface of the temperature measuring member. A base mounted to the aperture;
Is coupled to the front end of the base and the blade is formed on the front and includes a bit portion formed with an insertion hole in the direction in which the base,
The bit part is coupled to the base with the temperature measuring member inserted into the insertion hole,
And a length m of the temperature measuring member is shorter than a length l of the insertion hole. The method according to claim 2 or 3,
And a contact portion electrically connected to the temperature measuring member at the tip of the base, the contact portion being connected to an external recorder through a wire member planted inside the base. The method of claim 4,
And the recorder is a recorder for recording the resistance of the temperature measuring member at a temperature.

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