KR20130077635A - Complex probe gathering sample of molten metal and slag simultaneously - Google Patents

Abstract

PURPOSE: A multi-probe collecting molten metal and a slag sound sample simultaneously is provided to collect a molten metal sample and a slag sample with a single multi-probe and to obtain sound samples capable of calculating an accurate analysis value. CONSTITUTION: A multi-probe (10) collecting molten metal and a slag sound sample simultaneously includes a sample collecting unit (11), a holder branch pipe (12), and a slag pipe (13). The sample collecting unit includes a sampler (18) for collecting a molten metal sample. The holder branch pipe is inserted inside the sample collecting unit and mounted on a holder of a measuring device. The slag pipe is installed outside of the holder branch pipe and assembled at a portion spaced from the sample collecting unit at a predetermined distance.

Description

Complex probe gathering sample of molten metal and slag simultaneously}

The present invention relates to a composite probe for collecting molten metal and slag sound samples at the same time, and more specifically, to the sampling of metals for analyzing various components in the molten metal in the steelmaking process of the steel mill and the slag suspended above the molten metal. The present invention relates to a composite probe developed to enable the collection of sound samples that can simultaneously carry out sampling and bring the accuracy of component analysis.

In general, a composite probe for measuring molten metal, which is the background of the present invention, has a cylindrical protective tube of a single layer or a multilayer, and a temperature sensor including a thermocouple for measuring temperature may be installed at a front end of the probe. Samplers prepared for opening some of them are installed. The protective pipe is used as a branch pipe, additionally using some of the branch pipe and the heat-resistant protective tube made of ceramic material, mounted in a separate dipping device or a passive holder, immersed in the molten metal for several seconds, then raised and collected from the probe Obtain a sample.

In the present specification, the composite probe includes a sampler for collecting molten metal, and refers to a probe to which a slag collector is added at the same time. Additionally, the composite probe may further include a thermocouple which is a temperature measuring sensor of molten metal, a component sensor such as an oxygen sensor using electrochemical equilibrium, a level sensor for measuring the level of the molten metal, and the like.

Usually, the measuring device of the probe passes through a slag layer suspended on the surface of the molten metal, is immersed in the molten metal to a predetermined depth through the slag- molten metal interface layer where the reaction of the slag and the molten metal is actively performed, and then the inner molten metal. To collect.

Collection of slag-There are several methods of analysis, but traditionally, metal pipes are immersed into the molten metal, and slag from the surface of the pipe is recovered and pulverized-> solidified metal removal-> pelletizing-> XRF In the composite probe of the present invention, a method of attaching a metal pipe to a part of the appearance and forming irregularities on the surface of the composite probe of the present invention is used to facilitate the attachment of slag.

Figure 6 is a photograph of an example showing the measurement failure of the composite probe according to the prior art. (a) was measured with sufficient immersion time and depth, and as a result, the metal sample was well secured, but in the case of slag, the slag pipe melted and scattered a lot, resulting in poor quality and quality of the slag sample. , (b) is a case where the immersion depth is shallow to obtain a good slag sample, but the metal sample is not properly secured.

In FIG. 6 (a), the slag pipe was moved into the molten metal, and the slag was buried on the surface of the slag pipe at the time of probe recovery, so that the slag pipe was burned out by the molten metal, or a sufficient amount of slag was not collected. In addition, since the amount of slag may have a big difference in every measurement, changing the position of the slag pipe of the composite probe used only once could not cope with various usage environments.

As described above, when the metal sample and the slag sample of the composite probe according to the prior art are performed at the same time, even if a part of the slag pipe is immersed to the inside of the molten metal or accurately immersed in the slag layer, the immersion time is excessively long. Even when the immersion time is appropriate, the slag sampling pipe is melted when the slag temperature is high, such as LF (Ladle Furnace), or when the immersion time is short, the filling of the metal sample is often insufficient. have,

Also, as the composite probe is immersed, due to the splash phenomenon, molten metal and slag are scattered, many pieces of metal are contained in the collected slag, which requires a lot of time to analyze the composition of the slag and may cause inaccurate analytical values. There is only a problem.

The present invention was devised to solve the problems of the prior art as described above, while the present invention can simultaneously take two samples of molten metal and slag using a single composite probe, and can calculate an accurate analysis value. An object of the present invention is to provide a complex probe capable of sound sampling and a measuring method using the same.

In order to achieve the above object, the present invention, the composite probe for collecting the molten metal and slag sound sample at the same time, the sample collection unit including a sampler for collecting a sample of molten metal; A holder holder inserted into the sample collection unit and mounted to a holder of a measurement device; It is installed on the outside of the holder tube, characterized in that consisting of a slag pipe that is assembled to be installed at a portion spaced apart from the sample collection portion.

In another aspect, the present invention, characterized in that the heat-resistant protective tube is attached to a portion spaced from the sample collection portion a certain distance, and the distance between the slag pipe and the sample collection portion installed in the holder tube is 150mm or more, characterized in that In addition, the slag pipe is characterized in that it is fixed by a jar tube or sand molded body provided at the lower end, and the outer surface of the slag pipe is characterized in that it is processed into a concave-convex shape.

In another aspect, the present invention, the method of measuring a composite probe, the immersing the composite probe of the present invention in the molten metal so that the sampler is located in the molten metal, the slag pipe is located in the slag; Immersing the immersed probe for 1 to 3 seconds; Raising the immersed primary composite probe to maintain the slag pipe for 2 to 3 seconds while the slag pipe is exposed to the atmospheric layer and the sampler is immersed in molten metal as it is; It is characterized by consisting of the step of recovering by raising the secondary retained composite probe.

In addition, in the invention of the method, the ascending distance of the primary probe holding the composite is characterized in that the length of the slag collection slag pipe is equal to or slightly longer.

According to the present invention, it is possible to take a sample of the molten metal and slag at the same time by using a single composite probe, but also has the effect that a sound sampling can be calculated that the accurate analysis value can be calculated.

Figure 1 is a composite probe according to the prior art, the composite probe of the type installed in which a sampler in which molten metal is introduced into the side of the sampling unit.
Figure 2 is a composite probe according to the prior art, a composite probe in which a sampler is installed in which molten metal is introduced into the tip (bottom) of the sampler.
3 is an example of a composite probe according to the present invention, a composite probe capable of simultaneously collecting molten metal and slag.
4 is a graph for comparing and explaining the case of the measurement sequence of the composite probe according to the prior art (a) and the present invention (b).
Figure 5 is a view for explaining the comparative example of the combined probe measurement method according to the prior art (a) and the present invention (b).
Figure 6 is a failure case of collecting molten metal or slag of the composite probe according to the prior art.

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

The present invention relates to a composite probe for collecting molten metal and slag at the same time, to change the immersion depth in two stages, and to measure the immersion time according to the immersion depth, so that the measurement method can be effectively carried out It is characterized by changing the position of the slag pipe 13 for slag collecting, so that a healthy sample of molten metal and slag can be collected simultaneously.

1 is a schematic cross-sectional conceptual view of a composite probe according to the prior art, where a molten metal is introduced into a side of a sampling unit, and FIG. 2 is a composite probe according to the prior art, and a molten metal is used as a tip of a sampling unit. This is a schematic cross-sectional view of the composite probe of the inflow method. Figure 3 is an embodiment according to the present invention, a front cross-sectional conceptual view of the tip inlet composite probe. The composite probe of FIG. 3 according to the present invention is exemplified with respect to the tip inflow type, but the present invention can be applied to both the side and bottom inflow type probes as necessary.

The composite probe according to the prior art of FIG. 1 and FIG. 2 has been presented for reference to understand the difference more easily through comparison with the present invention, and may be used for comparison with FIG. 3.

Referring to FIG. 3, the composite probe 10 simultaneously performing sampling and slag sampling according to the present invention includes a sample having a temperature sensor including a sampler 18 and a temperature measuring thermocouple for collecting a sample of molten metal. Collecting unit 11, the holder is inserted into the inside of the sample collection unit 11, the holder tube 12 is mounted to the holder of the measuring device, and is installed outside the holder holder tube 12, the sample collection unit It comprises a slag pipe 13 which is assembled and installed at the part spaced apart from (11) by a fixed distance.

That is, the composite probe 10 of the present invention is provided with a sampler 18 of molten metal and a thermocouple for temperature measurement, and is provided so that a signal of a sensor can be transmitted through a holder of a measuring device on which the composite probe is mounted. A sampling part 11 composed of a connector and multiple protective tubes, such as a paper tube or a ceramic protective tube, is formed at the lower part of the composite probe (left side of the drawing), and a holder tube 12 into which the holder can be inserted is located. , The slag pipe 13 spaced apart from the sampling section 11 is assembled to the outside of the holder tube 12.

In order to protect the sample collection unit 11, a heat-resistant protection tube is installed. The heat-resistant protective tube 14 may be installed on the outer circumferential portion of the sample collection unit 11, but it is preferable to provide a heat-resistant protective tube at a portion spaced apart from the sample collection unit, that is, the spaced portion 15. If necessary, it is also effective to provide both of the sample section 11 more protected from high temperature environment. The spacing part 15 which shows the spacing distance between the slag pipe 13 and the sample collection part 11 which are installed in the said holder tube 12 is 150 mm or more, and the scattering which generate | occur | produces in the sample collection part 11 slag It is configured not to be delivered to the pipe (13).

The slag pipe 13 is fixed by a jar tube 16 or a sand molded body provided at its lower end. That is, the slag pipe 13 may be directly bonded to the slag pipe 13 and the holder tube 12, but there is a risk of falling off due to high temperature, so that the slag pipe 13 may have a predetermined thickness. It is effective to separately provide and fix the jar tube 16 and the sand molded body (shell mold) which have. Moreover, the uneven part 17 is processed in the outer surface of the said slag pipe 13, and the slag is formed in this uneven part 17 so that a slag can attach more easily.

Through such a configuration, it is possible to reduce the deterioration of the collected slag sample due to the scattering of the molten metal. That is, since splashing occurs due to chemical reaction and combustion of the molten metal and the protective tube as the composite probe 10 is immersed, the smaller the outer diameter of the composite probe 10 is, the less it occurs. The same separation is designed so that the sample taking part 11 of the composite probe 10 and the holder tube 12 having a smaller outer diameter are exposed to molten metal or slag, so that the slag is easily attached to the slag pipe 13. In addition, metal particles (iron grains) can be effectively reduced from scattering and attachment.

The sampler 11 includes all the structures of the sampler 18, and includes a temperature measuring sensor, a component measuring sensor, a level measuring sensor, and the like of the molten metal, and an immersion apparatus outside the composite probe 10. Alternatively, since the connector is provided to be mounted on the manual holder, there is a limit to reducing the outer diameter, and in the related art, by using a probe that directly connects the slag pipe 13 to such a sampling part 11, A large amount of scattering was generated.

Hereinafter, a method of collecting and measuring a sample of molten metal and slag by using the composite probe 10 of the present invention will be described in more detail.

4 is an example of the measurement sequence of the composite probe according to the prior art (a) and the present invention (b). 5 is an example of a composite probe measuring method according to the prior art (a) and the present invention (b).

In the measuring method of the composite probe 10 of the present invention, the composite probe 10 is immersed in the molten metal so that the sampler 18 is located in the molten metal, and the slag pipe 13 is immersed in the slag, Immersing the immersed probe for 1 to 3 seconds, and raising the immersed primary and maintained composite probe so that the slag pipe is exposed to the atmospheric layer and the sampler is immersed in molten metal for 2 to 3 seconds. And maintaining the vehicle and raising and recovering the secondary retained composite probe. In addition, the ascending distance of the primary probe retained by the composite proceeds to the same or slightly longer than the length of the slag collecting slag pipe.

4 and 5, by first immersing both the molten metal sampler 18 and the slag sampling slag pipe 13 to collect the slag in the slag layer [position of depth b of Figure 4 (b)]. The slag pipe 13 to be placed so that the slag is attached to the slag pipe 13, and then secondly, the immersion depth of the composite probe 10 (the position of the depth c in FIG. 4 (b)) is increased to the slag. The extracted slag pipe 13 is exposed to the upper atmosphere of the slag, so that only the molten metal sampler 18 can be continuously immersed in the molten metal. By doing so, the slag pipe 13 is prevented from being exposed to molten metal or slag for a long time, and the molten metal sampling unit 11 has a longer time as long as molten metal can be introduced into the sampler 18. It was made to be in a molten metal (molten metal).

At this time, when the primary immersion time (T1) is maintained for more than 3 seconds, the slag adhesion rate is significantly decreased by the scattering of the molten metal and high temperature thermal conductivity, so the primary immersion time is maintained for 1 to 3 seconds It is preferable. If the second immersion time (T2) also exceeds 7 seconds, burnout is severe, and high heat is transmitted to the holder (not shown), which is the tip of the measuring device. In addition, internal integrity and sample separability deteriorated. Therefore, it is preferable to maintain the secondary immersion for 3 to 6 seconds.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the embodiments described herein are by way of example only and are not to be construed as limiting the scope of the present invention. It is clear that it is possible to transform. Further, any matter which has substantially the same constitution as the technical idea described in the claims of the present invention and achieves the same operational effect is included in the technical scope of the present invention.

10: composite probe 11: sample collection part 12: holder tube
13 slag pipe 14 heat-resistant protective tube 15 separation
16: complex pipe 17: uneven portion 18: sampler

Claims (5)

A sampling unit including a sampler for collecting a sample of molten metal;
A holder holder inserted into the sample collection unit and mounted to a holder of a measurement device;
It is installed on the outside of the holder tube, the composite probe to collect the molten metal and slag sound sample at the same time, characterized in that consisting of a slag pipe which is assembled to a portion spaced apart from the sample collection portion The method of claim 1,
A composite probe for simultaneously collecting molten metal and slag sound sample, characterized in that the heat-resistant protective tube is attached to a portion spaced from the sample collection portion at a certain distance. The method according to claim 1 or 2,
The distance between the slag pipe and the sample collecting portion installed in the holder tube is at least 150mm, characterized in that the composite probe for collecting molten metal and slag sound sample at the same time The method according to claim 1 or 2,
The slag pipe is a composite probe for collecting the molten metal and slag sound sample at the same time, characterized in that the fixed by a pipe or sand molded body provided at the bottom The method according to claim 1 or 2,
The outer surface of the slag pipe is a composite probe for collecting the molten metal and the slag sound sample at the same time, characterized in that the processed uneven shape

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