KR20120075708A - A probe holder preventing slag attachment - Google Patents

Abstract

PURPOSE: A probe holder for preventing slag attachment is provided to prevent a slag attachment near to a holder in advance, thereby reducing a cost loss caused by a task delay and useless energy consumption. CONSTITUTION: A probe holder for preventing slag attachment comprises a sub-lance(40), a holder, and a probe. Cooling water flows around the sub-lance. The holder is coupled to the lower part of the sub-lance. The probe comprises a structure covering the holder. The sub-lance comprises a purge gas spreading from an upper side to a lower side in the inside. The holder comprises a purge inlet(50) so that the purge gas can be inserted from the sub-lance. A plurality of purge holes(51) is formed in the lower part(15) of a coupling unit of a holder. The purge holes take less than 50% of a whole area of the outer circumference.

Description

A probe holder preventing slag attachment

The present invention relates to a sub lance system for measuring a temperature in a converter in a refining process for refining molten metal and a holder used therein. More specifically, the sub lance body and a lower portion thereof deposited in the converter to measure the temperature in the converter. The present invention relates to a now-proof probe holder which is adapted to prevent a now that can be attached to a probe holder which is installed at the same.

Generally, a sublance is a device that is periodically and repeatedly immersed in the molten metal to check the temperature of the molten metal in the converter and the state of the molten metal. Generally, the sublance and the sublance connected to the upper and lower driving bodies. It is configured to include a holder connected to the bottom and the probe is consumed in a structure that wraps the holder every measurement.

The sub lance includes a signal line capable of transmitting a measurement signal generated from a probe to a worker, and generally has a cooling device through which cooling water flows.

1 is a perspective conceptual view of an example for explaining a sub lance system according to the prior art. As shown in FIG. 1, the sub lance is mounted on the holder of the sub lance 40 mounted on the guide car 70, and the wire of the guide car 70 is driven through the driving motor 60. Rotating the drum 80, the winding of the rope 90 is lowering the sub lance 40, by the lowering of the sub lance 40, the probe 70 is molten steel in the converter 100 through the deposition hole 101 The temperature of the molten steel is measured as it is deposited in.

Thereafter, when the driving motor 60 rotates the drum 80 reversely, the sidecar 70 and the sub lance 40 are raised by the rising of the wire rope 90.

2 is a front cross-sectional view illustrating a shape in which a slag is attached between the sub lance 40 and the holder 10 as a sub lance system according to the prior art. When the sub lance system is immersed in the molten metal and then rises as shown in FIG. 2, the slag and the molten metal on the top of the molten metal are often scattered and attached to the probe, the sub lance, or the like.

Since the probe is consumable, it is not a problem if it is removed from the holder and disposed of, and the sub-lance has the internally cooled device 41, and the rapidly cooled jaw 42 falls back into the molten metal again. However, the end of the sub lance is difficult to install a cooling device, so it is now attached.

In the molten metal treatment furnace in which the sub-lance system and the probe holder of the present invention are used, since a high-temperature, high-density fluid is in the stirring reaction, when the probe is immersed, a very large shear force is applied to the probe side. Due to the shear force, a minute gap may occur between the sublance and the holder, and a case is often attached to the gap. The gap may be referred to as a lower end of the fastening part based on the holder.

In this way, when the hot shell is attached to the lower end of the fastening portion of the holder, the branch pipe, which is a protective tube of the probe mounted on the holder body, is burned by the shell, and the now unsolidified shell flows in the direction of the holder body and solidifies. Often occurs. In this case, if the probe is mounted at the next measurement after the measurement is finished and the probe is detached and detached, a mounting failure may occur because the probe cannot be mounted to its position due to the flow in the body direction.

Operation is delayed due to the above mounting failure, and a separate operator must approach the sub lance and the probe holder to remove the current or replace the holder, which causes a large waste of energy, raw materials, time, and the like.

An object of the present invention is to provide a device that can prevent the current attached to the sub lance and the probe holder installed at the bottom thereof, thereby reducing probe mounting failure due to the present, and reducing cost loss such as operation delay and energy waste. It is done.

In order to achieve the above object, the present preventive probe holder of the present invention, the sub lance consisting of a sub lance to allow the cooling water to flow to the periphery, a holder fastened to the lower end of the sub lance, a sub-probe is mounted in a structure surrounding the holder In the lance system,

The sub lance is provided with a purge gas flowing from the upper side to the lower side therein, the holder has a purge inlet so that the purge gas can be introduced from the sub lance, a plurality of purge holes formed in the lower position of the fastening portion of the holder It is characterized by that.

In addition, in the present invention, the purge hole is characterized in that a plurality of formed within the area range of 50% or less of the total area of the outer peripheral surface of the lower end of the fastening portion of the holder, the purge hole is also zigzag perforated in the lower end of the fastening portion of the holder In addition, the purge hole is characterized in that the conical shape is formed from the inside to the outside.

In addition, the purge hole in the present invention is characterized in that it is formed 5 to 20 at a uniform distance along the outer peripheral surface of the lower end of the fastening portion of the holder, and also characterized in that the size of the purge hole is 1 to 3mm in diameter, The purge gas is characterized in that the forced air, or inert gas is used.

According to the present invention, the current attached to the sub lance and the probe holder installed at the bottom thereof can be prevented in advance, and the failure of probe mounting due to the present can be reduced, and the cost loss such as operation delay and energy waste can be reduced. It has an economic effect.

1 is a perspective conceptual view for explaining a sub lance system according to the prior art.
FIG. 2 is a front cross-sectional conceptual view illustrating a shape in which a slag is attached between a sub lance and a holder as a conventional sub lance system.
3 is a schematic view for explaining the structure of the holder used in the present invention.
4A is a conceptual diagram illustrating a structure in which a holder of the present invention is coupled to a sub lance.
4B is a conceptual diagram of a probe.
4C is a partial cutaway conceptual view illustrating a shape in which a holder coupled to a probe of the present invention is coupled to a sub lance.
5 is an enlarged cross-sectional view illustrating a portion A of FIG. 4C for explaining a holder having a purge hole according to the present invention.

Summary of the Invention The present invention provides a purge holder that uses a purge function in a sub lance system to prevent attachment of a now between a sub lance and a holder, and includes a purge hole at the bottom of the holder of the fastening portion of the holder.

In addition, a purge gas flowing from the upper side to the lower side is provided in the inside of the sub lance, and a purge inlet through which the purge gas can be introduced from the sub lance is provided in a holder extending to the lower end of the sub lance. To help. In addition, a plurality of purge holes are formed at the lower end of the holder in the fastening portion to which the sub lance and the holder are fastened so that the purge gas can be purged to the outside of the holder.

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

3 is a schematic view for explaining the structure of the holder used in the present invention. 4A is a conceptual diagram illustrating a structure in which a holder of the present invention is coupled to a sub lance. 4B is a partial cutaway conceptual diagram of a probe of the present invention. 4C is a partial cutaway conceptual view illustrating a shape in which a holder coupled to a probe of the present invention is coupled to a sub lance.

As shown in FIG. 3, the holder 10 used in the present invention is provided with a fastening part 11 for coupling with a sub lance at an upper end thereof, and a stopper 12 and a body 13 at the lower end thereof. At the bottom, a connector coupler 14 for coupling with the connector 21 is provided. In the holder 10, the cutouts from the bottom of the bottom of the fastening part 11 to the top of the holder body 13 will be referred to as the bottom of the fastening part 15. The total area of the lower part of the fastening part 15 means the total surface area of the outer circumferential surface of the lower part of the fastening part 15.

The holder 10 is coupled to the sub lance 40, as shown in Figure 4a, the fastening portion 11 is located inside the sub lance 40, the lower end of the fastening portion 15 is a sub lance (40) outside, ie outside.

The holder 10 is coupled in a form surrounding the entire outer circumferential surface of the upper portion of the probe 20. Inside the lower part of the probe 20, as shown in Figure 4b, the connector 21 is built-in, the lower end of the connector 21 is provided with a device for measuring the temperature of the molten steel, etc., the probe 20 At the extreme end of the sensor unit 22 is coupled.

The connector 21 embedded in the probe is coupled to the connector coupler 14 of the holder 10, and the holder 10, the probe 20, and the sub lance 40 are all coupled to each other. As shown in Figure 4c.

5 is an enlarged cross-sectional view illustrating a portion A of FIG. 4C for explaining a holder having a purge hole according to the present invention. Referring to FIG. 5, the sub lance 40 has a purge gas flowing from the upper side to the lower side thereof, and the holder 10 has a purge inlet port (200) through which the purge gas can be introduced from the sub lance 40. 50) is formed. The purge gas is supplied through the purge inlet 50, and the purge gas may use forced air or an inert gas, and may be used at a pressure of several atm.

The inner hollow portion of the pipe shape formed from the purge inlet 50 extends along the longitudinal direction of the holder 10 as indicated by a dotted line in the drawing, which is connected to the connector coupling portion of the holder at the lower end of the holder 10. 14) is coupled to the connector 21 has a structure that is blocked.

As shown in FIG. 5, a plurality of purge holes 51 are formed at the lower end 15 of the fastening part of the holder 10. Preferably, the purge hole 51 is formed in plural within an area range of 50% or less of the total area of the outer circumferential surface of the lower end portion 15 of the fastening portion of the holder. If the purge hole 51 is distributed too little on the outer circumferential surface of the lower end of the fastening part, sufficient anti-preventive effect cannot be obtained, and when there is too much, that is, when the outer circumferential surface of the lower end of the fastening part 15 exceeds 50% of the total area, The holder 10 may be bent because it cannot endure the shear stress caused by the stirring force of the molten metal.

In addition, the size of the purge hole 51 was 1 to 3 mm in diameter, which was more effective for prevention. When the diameter of the purge hole 51 is less than 1 mm, the purge gas is not smoothly transmitted. When the diameter of the purge hole 51 exceeds 3 mm, the purge gas is more than necessary to cause vibrations in the periphery. Side effects occurred.

The purge hole 51 may be formed in a straight line at a uniform distance along the outer circumferential surface of the lower end of the holder fastening part 15, but if necessary, the purge hole 51 may be zigzag at the lower end of the fastening part 15 in the longitudinal direction of the holder. Perforation in form was more effective in preventing the holder 10 from bending.

As an embodiment of the present invention by applying the present invention to the lower end 15 of the fastening portion 15 of the holder 10 having a diameter of about 55mm to form a purge hole 51 in a variety of ways and number, and applied to the actual measurement of molten steel It was. As a result, 5 to 20 purging holes 51 of 2 mm were formed in the lower end portion 15 of the fastening portion of the holder, and thus, the necessary protection effect was obtained. Preferably, about 12 to 16 purge holes having a diameter of 2 mm were determined to be appropriate levels.

In the above embodiment, when the number of purge holes 51 exceeds 20, side effects such as vibration induction occurred, and less than 5 could not obtain sufficient anti-preventive effect. Furthermore, when the conical purge hole 51 having a larger diameter from the inside of the holder 10 toward the outside is formed, the purge effect can be enlarged while maintaining the strength of the holder 10.

In summary, the holder 10 of the present invention has one or more stoppers 12 that are physically secured with a connector 21 that is electrically connected to the probe 20 and that is secured to the sublance 40. The fastening part 11 is provided, and the holder 10 communicates with the purge inlet 50 through which the purge gas enters from the sub lance 40, and communicates with the purge inlet 50 through the holder 10. It includes a purge hole 51 that can purge to the outside from the lower end 15 of the fastening portion.

In addition, purge gas flows from the inside of the sub lance 40 to the inside of the holder 10, and the purge gas is purged at the lower end 15 of the fastening portion of the sub lance 40 and the holder 10. Spreading out of the holder 10 through the hole 51 to prevent the now is attached to the vicinity. At this time, when now scattered around the lower end of the fastening portion 15 is prevented mechanically by the purge pressure, or is now prevented by the temperature difference due to the purge gas temperature at room temperature.

10 holder 11 fastener 12 stopper
13 body 14 connector connector 15 fastening bottom
20 probe 21 connector 22 sensor
40: Sub lance 50: Fuzzy inlet 51: Fuzzy hole

Claims (7)

In the probe holder consisting of a sub lance to allow the cooling water to flow around, a holder fastened to the lower end of the sub lance, and a probe mounted in a structure surrounding the holder,
The sub lance has a purge gas flowing from the upper side to the lower side therein, and the holder has a purge inlet to allow the purge gas to be introduced from the sub lance, and a plurality of purge holes are formed at the lower end of the fastening portion of the holder. Probe protection holder, characterized in that The method of claim 1,
The purge hole is now prevented probe holder, characterized in that a plurality of formed in the area range of less than 50% of the total area of the outer peripheral surface of the bottom of the fastening portion of the holder The method according to claim 1 or 2,
The purge hole is a now preventing probe holder, characterized in that perforated in a zigzag form at the bottom of the fastening portion of the holder The method according to claim 1 or 2,
The purge hole is a now preventing probe holder, characterized in that formed in a conical shape from the inside to the outside. The method according to claim 1 or 2,
The purge hole is now prevented probe holder, characterized in that 5 to 20 formed at a uniform distance along the outer peripheral surface of the bottom of the fastening portion of the holder The method according to claim 1 or 2,
The size of the purge hole is now preventing probe holder, characterized in that the diameter of 1 ~ 3mm The method according to claim 1 or 2,
The purge gas is a now-prevention probe holder, characterized in that the forced air, or inert gas is used

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