KR100832980B1 - A probe for gather sample ore in vacuum furnace - Google Patents

Abstract

The present invention allows the sampling of molten steel through the probe even in the state of refining the molten steel in the vacuum furnace (vacuum furnace), thereby sampling the vacuum furnace to shorten the refining step and time It relates to a probe for.

The technical configuration, the probe is fastened to the holder and the mold is installed inside the lower side of the probe, the molten steel inlet is formed above the mold, the molten steel inlet is formed on the upper side of the molten steel inlet is formed in the lower side of the probe It is installed to the upper side of the branch pipe (紙 管, 20) and the molten steel guide port is formed in the cap shape, the lower portion is characterized in that it comprises a molten steel backflow prevention plate is formed of the branch pipe.

Vacuum furnace, molten steel, probe, molten steel inlet, molten steel check valve

Description

Vacuum probe sampling probe {A PROBE FOR GATHER SAMPLE ORE IN VACUUM FURNACE}

1 is a front sectional structure diagram of a general vacuum furnace and a sampling probe inserted therein;

Figure 2 is a partially cutaway perspective view of the vacuum furnace sampling probe according to the present invention.

Figure 3 is a structural diagram showing the main part of the mold of the present invention probe.

Figure 4 is a view showing a state of inflow of molten steel to the sampling probe of the present invention.

5 is a view showing a complete state of inflow of molten steel in the sampling probe of the present invention.

Explanation of symbols on the main parts of the drawings

10 ... Probe 11 ... Molten steel inlet

12.Melted steel guide port 14 ... Mold

20 ... branch 21 ... molten steel

30.Molten steel backflow prevention plate 31.

31.Ceramic coating layer 41 ... Vacuum furnace

42 ladle 44 holder

The present invention relates to a vacuum furnace sampling probe to facilitate the sampling of the molten steel during the refining operation of the molten steel in a vacuum furnace, in particular, the refining of the molten steel is carried out in the vacuum furnace Sampling of the molten steel through the probe is possible in the state, and thus relates to a vacuum furnace sampling probe that can shorten the refining work step and time.

In the structure of a vacuum furnace generally known, as shown in FIG. 1, a ladle 42 containing molten steel 21 is provided inside the vacuum passage 41, and a cover 40 is positioned above the vacuum furnace 41. And covers the vacuum furnace 41 so that a vacuum is formed.

Therefore, in the case of refining molten steel in the vacuum furnace 41, as shown in FIG. 1, the ladle 42 in which the molten steel 21 is contained in the vacuum furnace 41 is seated and then covered on the upper side of the sphere. A vacuum is formed in the state of closing 40, and the lance 45 is immersed in molten steel and refine | purifies.

At this time, the pressure inside the vacuum furnace 41 is much different from the pressure in the atmosphere, so that the decarburization work is performed smoothly.

On the other hand, in order to know the refining and composition of the molten steel, when the sample of molten steel is taken, after the probe 10 is immersed in the molten steel, the molten steel is introduced into the mold 14 of the probe 10. The probe is drawn out into the atmosphere, and the molten steel sample held in the mold 14 is sucked into the vacuum furnace again by the pressure difference between the atmospheric pressure and the vacuum path 41 when the probe 10 is drawn out into the atmosphere. Will occur.

Therefore, in order to collect the molten steel through the probe 10, the cover 40 of the vacuum furnace 41 is opened through the cylinder 43 to maintain the vacuum furnace at atmospheric pressure, and then the component analysis of the sample is completed. When the cover 40 is again closed and the fine refining operation is performed, the refining step of the molten steel is increased, and thus, the refining operation time is extended, which causes a cost increase.

The present invention has been made in order to improve the conventional problems as described above, the object is to be able to sample the molten steel through the probe even in the state of refining the molten steel in the vacuum furnace, according to the refining work step And to provide a vacuum probe sampling probe that can reduce the time.

The present invention as a technical means for achieving the above object, the probe is fastened to the holder;
A mold is installed in the lower side of the probe, a molten steel inlet is formed on the upper side of the mold, and a molten steel inlet is formed on one side of the upper portion of the molten steel inlet and is installed below the probe;
It is installed to the upper side of the molten steel guide port, the upper portion is made of a cap shape, the lower portion is characterized in that it comprises a molten steel backflow prevention plate is formed branch.

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

2 is a partially cutaway perspective view of a vacuum furnace sampling probe according to the present invention, FIG. 3 is a main structural diagram showing a mold portion of the probe of the present invention, and FIGS. 4 and 5 are views of molten steel in the sampling probe of the present invention. Referring to FIG. 1 as a diagram showing the inflow state and the inflow completion state, respectively, a ladle 42 containing molten steel 21 is installed inside the vacuum furnace 41, and a cover 40 is positioned on the upper side thereof. Then, it is installed so as to cover the vacuum path 41 to form a vacuum.

In addition, the probe 10 fastened to the holder 44 for sampling during the refining operation of the molten steel in the vacuum furnace 41 has a mold 14 inside the branch pipe 20 under the probe 10. The molten steel guide port 12 is formed, the upper side of the mold 14 consisting of a sand component is formed, the molten steel guide port 12 is formed on the upper side of the molten steel guide port 12, the molten steel guide port 12 The upper side of the molten steel backflow prevention plate 30 is installed, the upper portion is made of a cap shape, the lower portion of the branch pipe (紙 管) is formed thin, the inside of the molten steel backflow prevention plate 30 is a ceramic coating layer ( 32) is formed.

Referring to the operation and effect of the present invention made of such a configuration as follows.

As shown in Figure 2 to 5, when performing the refining operation of the molten steel in the vacuum furnace 41, after mounting the ladle 42 containing the molten steel 21 in the vacuum furnace 41, A vacuum is formed in the state in which the cover 40 is closed on the upper side, and the lance 45 is immersed in molten steel to perform the refining operation.

At this time, when collecting the sample of molten steel to know the refining and composition of the molten steel, when the probe 10 is immersed in the molten steel, the molten steel is inside the branch pipe 20 through the molten steel inlet 11 of the probe 10 When the inflow of the molten steel 21 is introduced into the molten steel sheet (31) made of paper installed on the lower end of the molten steel backflow prevention plate 30 is installed on the molten steel inlet 11 side is burned by the molten steel. .

Subsequently, the introduced molten steel 21 flows into the mold 14 through the guide hole 12 of the branch pipe 20 and starts to solidify. When the molten steel is completed, the molten steel is completed in the mold 14. As shown in FIG. 5, the cap part of the upper portion descends after the branch pipe 31 made of thin paper at the bottom of the molten steel backflow prevention plate 30 is completely burned out by the inflow of the molten steel 21.

Therefore, the cap part surface of the molten steel backflow prevention plate 30 seals the molten steel inlet 11, and when the sampling holder 10 is raised in the above state, the holder 44 is vacuum-passed ( When exiting to the outside of 41, the phenomenon in which the molten steel inside the mold 14 generated by the pressure difference in the vacuum path 41 and the atmospheric pressure is prevented from flowing back.

According to the vacuum furnace sampling probe according to the present invention as described above, it is possible to sample the molten steel through the probe even in the state of refining the molten steel in the vacuum furnace, thereby reducing the refining work step and time Of course, there is an excellent effect that can be fine-tuning of the molten steel in the interior of the vacuum furnace.

While the invention has been shown and described with respect to specific embodiments thereof, it will be appreciated that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as set forth in the following claims. Those of ordinary skill will want to know easily.

Claims (3)

A probe 10 engaged with the holder 44; A mold 14 is installed in the lower side of the probe 10, a molten steel inlet 12 is formed above the mold 14, and a molten steel inlet 11 is formed at an upper side of the molten steel inlet 12. A branch pipe (20) formed to be installed below the probe (10); It is installed to the upper side of the molten steel induction hole 12, the upper portion is made of a cap shape, the lower portion of the molten steel backflow prevention plate 30 is formed in the branch pipe (31); Probe. The vacuum furnace sampling probe according to claim 1, wherein a ceramic coating layer (32) is formed inside the molten steel backflow prevention plate (30). The vacuum furnace sampling probe according to claim 1, wherein the molten steel guide port (12) is composed of a sand component.

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