KR101330289B1 - Extraction case of probe for sampling melting iron sample - Google Patents

Abstract

A sampling vessel of a molten steel sample probe for introducing molten steel to analyze molten steel components is introduced.
The sampling vessel of the molten steel sample probe has a horizontal portion formed on at least one inner circumferential surface and a rounding portion formed on the remaining inner circumferential surface except for the one inner circumferential surface so that the molten steel sample having a horizontal surface is drawn out on the side.
Through this, in the drilling operation for sample chip analysis, a stable drilling operation is made, it is possible to prevent a safety accident that injuries to workers due to debris generated during the drilling operation.

Description

EXTRACTION CASE OF PROBE FOR SAMPLING MELTING IRON SAMPLE

The present invention relates to a sampling vessel of a molten steel sample probe, and more particularly, to a sampling vessel of a molten steel sample probe that prevents the drill from slipping and cutting in a sample during a drilling operation for analyzing a sample chip.

In general, in order to analyze the components of the molten steel received in the converter or refining furnace, a molten steel sample must be taken in the middle of the process, and the component reconditioning is performed based on this.

As a related art related to sample sampling, "melted metal sampling probe (Patent Publication: 10-2003-0027560)" is referred to.

For example, as shown in FIG. 1A, after the probe 1 having the collection container is connected to the sub lance 2, the probe 1 is taken inside the converter 3 using the driving motor 5. The sample is sampled by immersing in the molten metal (4). In a converter or refinery

In addition, as shown in FIG. 1B, the probe 1 is protected by a collection vessel 20 for sampling a molten metal sample surrounded by a plurality of branch tubes 11, 12, 13, 17, and 18. The collecting port 22 is detachably fixed to the sub lance 2 by the other branch pipes 14, 15, and 16 sealed with the metal stopper 24.

In particular, after the sample is drawn from the sampling container in which the sample is sampled, and the drawn sample is sent to the analysis chamber, as shown in FIG. 2, in the analysis chamber, the sample is fixed to a clamping vice 30 and then the drilling machine The sample is prepared in the form of a chip using a drilling machine, and the sample is analyzed by putting the sample in the form of a nitrogen / oxygen analyzer and a carbon / sulfur analyzer. do.

However, when the sample drawn from the sampling container is fixed with the clamping vise 30 to be drilled by the drill 40, the sample forms a solidified state in a cylindrical shape, so that the drill 40 is moved to the centerline C of the cylindrical sample 10. When the drill is misaligned with the drill), the drill 40 slips on the cylindrical sample 10, and the debris generated at this time bounces off to the operator's face or body part, causing frequent accidents. As a result, a damaged drill raises test costs, delays analysis time, and lowers work efficiency.

An object of the present invention for solving this problem is to provide a sampling container of a molten steel sample probe to solidify the molten steel sample to ensure a stable drilling operation during the drilling operation for the sample chip analysis.

In order to achieve the above object, a sampling vessel of a molten steel sample probe according to the present invention is a sampling vessel of a molten steel sample probe that collects molten steel that is being blown to analyze molten steel components. A horizontal portion is formed on one inner circumferential surface and a rounding portion is formed on the remaining inner circumferential surface except for the one inner circumferential surface.

Preferably, the horizontal portion is a bilateral horizontal portion disposed side by side on the opposite inner circumferential surface, a rounding portion is formed on the remaining inner circumferential surface except the bilateral horizontal portion.

Preferably, the horizontal portion is a quadrant horizontal portion disposed vertically in a direction perpendicular to each other, and a rounding portion is formed on the remaining inner circumferential surface except the quadrant horizontal portion.

Preferably, the protruding jaw protrudes from the horizontal portion, and the protruding jaw extends in the height direction of the collection container.

Preferably, the protruding jaw is formed extending in the height direction of the sampling container in the widthwise center of the horizontal portion so that the drill can drill the center of the molten steel sample after fixed to the clamping vise.

According to the present invention, the following remarkable effects can be realized.

First, the present invention has an advantage in that the drilling work for analyzing the sample chip, so that the stable drilling work is made, it is possible to prevent the safety accident that injuries to the operator due to the debris generated during the drilling work in advance.

Secondly, the present invention has the advantage of reducing the analysis time of the sample, while improving the work efficiency by preventing the break due to the slip of the drill during the drilling operation for the sample chip analysis.

Figure 1a is a state diagram showing a process of taking a molten steel sample through a probe according to the prior art.
1B is a cross-sectional view of a conventional probe in accordance with the prior art;
Figure 2 is a state diagram showing a process of drilling a molten steel sample according to the prior art.
3A is a perspective view illustrating a sampling container and a molten steel sample of a sampling container of a molten steel sample probe according to a first embodiment of the present invention;
3b is a state diagram illustrating a process of drilling a molten steel sample collected from a sampling vessel of a molten steel sample probe according to a first embodiment of the present invention.
4A is a perspective view illustrating a sampling container and a molten steel sample of a sampling container of a molten steel sample probe according to a second embodiment of the present invention.
Figure 4b is a state diagram showing the process of drilling the molten steel sample collected in the sampling vessel of the molten steel sample probe according to a second embodiment of the present invention.
5A is a perspective view illustrating a sampling container and a molten steel sample of a sampling container of a molten steel sample probe according to a third embodiment of the present invention.
5B is a state diagram illustrating a process of drilling a molten steel sample collected from a sampling vessel of a molten steel sample probe according to a third embodiment of the present invention.
6A is a perspective view illustrating a sampling container and a molten steel sample of a sampling container of a molten steel sample probe according to a fourth embodiment of the present invention;
6b is a state diagram illustrating a process of drilling a molten steel sample collected from a sampling vessel of a molten steel sample probe according to a fourth embodiment of the present invention.

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

The sampling vessel of the molten steel sample probe according to the present invention allows the sample to be condensed for stable preparation of the chip sample during the drilling operation of the molten steel sample.

Here, the configuration of the molten steel sample probe except for the sampling container, for example, the configuration of the paper tube surrounded by the collecting container, the sub lance that is detached from the paper tube is the same as the configuration of the probe for collecting the conventional molten steel sample, so the description thereof will be omitted. It will be omitted. Of course, in addition to the probe configuration including the branch pipe and the sub-lance, the collection container according to the present invention may be applied to all probe configurations in which the collection container is used to collect molten metal received in the converter or refining furnace.

Figure 3a is a view showing a perspective view of the sampling vessel and the molten steel sample of the sampling vessel of the molten steel sample probe according to the first embodiment of the present invention, Figure 3b is a sampling vessel of the molten steel sample probe according to the first embodiment of the present invention A diagram showing a process of drilling the collected molten steel sample.

3A to 3B, the sampling container 100 according to the first embodiment of the present invention is mounted to the molten steel sample 200 probe to collect molten steel that is being blown, and has a horizontal portion on at least one inner circumferential surface thereof. 110 is formed, it is configured in the form of a cylindrical container in which the rounded portion 120 is formed on the remaining inner peripheral surface except the one inner peripheral surface.

Through this, the molten steel sample 200 drawn from the sampling container 100 has a horizontal surface 210 on one side of the outer peripheral surface, the rounding surface 220 may be formed on the remaining outer peripheral surface except the one outer peripheral surface, such a shape Since the molten steel sample 200 having the drill prevents the slip phenomenon of the drill during the drilling operation, it is possible to prevent the injury of the operator due to the debris generated during the conventional drilling operation, and also to prevent the breakage of the drill due to the slip. .

In detail, the collection container 100 is separated from the molten steel sample probe (not shown) when the molten steel is solidified in the form of molten steel sample after the molten steel is collected from the converter or the refining furnace. The solidified molten steel sample 200 is drawn from the separated sampling container 100, and then sent to the analysis chamber to prepare a chip sample in the form of a chip for sample component analysis. The molten steel sample 200 is prepared for preparation into a chip sample. After being fixed to the clamping vise 30, the drilling operation is carried out through the drill 40 of the drilling machine.

At this time, the molten steel sample 200, as described above, because the horizontal surface 210 is formed on one outer peripheral surface, when fixing the molten steel sample 200 to the clamping vise 30, the end of the drill and the molten steel sample 200 The horizontal plane of 210 is arranged to be perpendicular to each other, more preferably, the end of the drill is fixed to be located in the center of the horizontal plane (210).

As such, when the drilling operation through the drill 40 is performed while the molten steel sample 200 is fixed to the clamping vise 30, since the drilling operation is stable for the horizontal plane 210 of the molten steel specimen 200, As the conventional drill slips in the cylindrical sample, debris is generated and the drill is broken.

Figure 4a is a view showing a perspective view of the sampling container and the molten steel sample of the molten steel sample probe according to the second embodiment of the present invention, Figure 4b is a sampling container of the molten steel sample probe according to the second embodiment of the present invention A diagram showing a process of drilling the collected molten steel sample.

On the other hand, as shown in Figure 4a to 4b, according to the second embodiment of the present invention, the horizontal portion 110 of the sampling container 100 may be made of a bilateral horizontal portion (111). This bilateral horizontal portion 111 is formed in a form arranged side by side on the opposite inner peripheral surface. The rounding part 120 is formed on the remaining inner circumferential surface except the horizontal part 111.

At this time, the molten steel sample 200 drawn from the collecting container 100 has a bilateral horizontal plane 211 formed on one outer peripheral surface and an outer peripheral surface disposed in parallel with each other, and the remaining outer peripheral surface except for the bilateral horizontal surface 211. The rounding surface 220 may be formed.

In the case of the molten steel sample 200 having such a shape, the bilateral horizontal plane 211 formed on one outer circumferential surface is in close contact with the bottom surface of the clamping vise 30, and the bilateral horizontal plane 211 disposed side by side on the one outer circumferential surface faces the drill. In such a state that the drilling operation is performed, the molten steel sample 200 is tightly fixed to the clamping vise 30, and the slip phenomenon of the drill may be prevented more effectively during the drilling operation.

5A is a view illustrating a perspective view of a sampling container and a molten steel sample of a sampling container of a molten steel sample probe according to a third embodiment of the present invention, and FIG. 5B is a sampling container of the molten steel sample probe according to a third embodiment of the present invention. A diagram showing a process of drilling the collected molten steel sample.

As shown in Figure 5a to 5b, according to the third embodiment of the present invention, the horizontal portion 110 of the sampling container 100 may be formed of a quadrant horizontal portion (112). The quadrant horizontal portion 112 has a shape in which the horizontal portion 110 is vertically disposed in a direction perpendicular to each other. The rounding part 120 is formed on the remaining inner circumferential surface except for the quadrant horizontal part 112.

The molten steel sample 200 drawn from the sampling container 100 has a quadrant horizontal plane 212 formed on an outer circumferential surface that is disposed perpendicularly to one outer circumferential surface, and has a rounding surface on the remaining outer circumferential surface except for the bilateral horizontal plane 211. 220 may be formed.

Thus, in the case of the molten steel sample 200 having this shape, the quadrant horizontal surface 212 formed on one outer circumferential surface is in close contact with the bottom surface of the clamping vise 30, and the quadrant horizontal plane 212 disposed side by side on one outer circumferential surface is drilled. The quadrant horizontal surface 212 disposed opposite to and formed on both outer circumferential surfaces of the quadrant horizontal surface 212 is in close contact with the sidewall of the clamping vise 30 so that the drilling operation is performed, whereby the molten steel sample 200 is more closely connected to the clamping vise 30. It is fixed and the slip phenomenon of the drill can be prevented more effectively during the drilling operation.

6A is a view illustrating a perspective view of a sampling container and a molten steel sample of a sampling container of a molten steel sample probe according to a fourth embodiment of the present invention, and FIG. 6B is a sampling container of the molten steel sample probe according to a fourth embodiment of the present invention. A diagram showing a process of drilling the collected molten steel sample.

As shown in Figure 6a to 6b, according to the fourth embodiment of the present invention, the horizontal portion 110 of the collecting container 100 is composed of a bilateral horizontal portion 111, this bilateral horizontal portion 111 Protruding jaw 114 may be formed. The dividing horizontal portion 111 is formed in a form arranged side by side on the opposite inner circumferential surface, the protruding jaw 114 of the at least one dividing horizontal portion 111 is extended in the height direction of the collecting container 100 It protrudes.

The molten steel sample 200 drawn from the sampling container 100 has a bilateral horizontal plane 211 formed on one outer circumferential surface and an outer circumferential surface disposed in parallel with each other, and has a center groove (a position corresponding to the protruding jaw 114). 214 is formed, and a rounding surface 220 may be formed on the outer circumferential surface except for the bilateral horizontal plane 211.

Therefore, in the case of the molten steel sample 200 having such a shape, the bilateral horizontal plane 211 formed on one outer circumferential surface is in close contact with the bottom surface of the clamping vise 30, and the center of the bilateral horizontal plane 211 disposed side by side on one outer circumferential surface. Since the groove 214 is disposed to face the drill, the drilling operation is performed, and thus the position of the drill can be easily made, and the molten steel sample 200 can be tightly fixed to the clamping vise 30.

As described above, the present invention is to ensure a stable drilling operation during the drilling operation for the sample chip analysis, to prevent the safety accident that injury to the operator due to the debris generated during the drilling operation in advance, slip of the drill It is possible to prevent the breakage caused by reducing the analysis time of the sample has an excellent advantage.

Although the present invention has been described in detail using the preferred embodiments, the scope of the present invention is not limited to the specific embodiments, and should be interpreted by the appended claims. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention.

100: collection container 110: horizontal portion
111: two-part horizontal part 112: four-part horizontal part
114: protrusion ledge 120: rounding
200: molten steel sample 210: horizontal plane
211: two-part horizontal plane 212: four-part horizontal plane
214: center groove 220: rounding surface

Claims (5)

A collection vessel of a molten steel sample probe that collects molten steel that is being blown to analyze molten steel components.
A horizontal portion is formed on at least one inner circumferential surface and a rounding portion is formed on the remaining inner circumferential surface except for the one inner circumferential surface so that the molten steel sample having a horizontal surface on the side is drawn out.
After forming the center groove in the center of the drawn molten steel sample to fix the molten steel sample to the clamping vise, so that the drill can drill the center of the molten steel sample, the protruding jaw is formed in the horizontal portion,
The protruding jaw is a sampling container of the molten steel sample probe, characterized in that in the horizontal direction of the horizontal portion extending in the height direction of the sampling container. The method according to claim 1,
The horizontal portion is a bisecting horizontal portion arranged side by side on the opposite inner peripheral surface, the collecting vessel of the molten steel sample probe, characterized in that the rounded portion is formed on the remaining inner peripheral surface except the bilateral horizontal portion. The method according to claim 1,
The horizontal portion is a quadrant horizontal portion disposed vertically in a direction perpendicular to each other, wherein the rounding portion is formed on the remaining inner circumferential surface except the quarter portion horizontal portion is a sampling container of the molten steel sample probe. delete delete

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