KR102512878B1 - Protective cap of sampler and sampler for molten steel - Google Patents

Abstract

A protective cap for preventing slag from entering a sampler for collecting molten steel, comprising: a head portion covering a molten steel inlet of the sampler; And a skirt portion extending downward along the circumference of the lower end of the head portion, connected to a portion where the molten steel inlet of the sampler is formed, formed along a direction extending downward, and provided with a plurality of slits spaced apart from each other along the circumference of the head portion; A sampler protection cap comprising a is introduced.

Description

Sampler protection cap and molten steel sampler {PROTECTIVE CAP OF SAMPLER AND SAMPLER FOR MOLTEN STEEL}

The present invention relates to a sampler protection cap capable of smoothly collecting molten steel by preventing slag inflow into the sampler and at the same time increasing a reaction area with molten steel.

The steelmaking process focuses on two elements: ingredient and temperature control. In order to accurately control the components, operators in each process take component samples of the molten steel using a sampler and send them to the analysis room to check the component performance of the molten steel in real time. Samplers for component sampling used in steelmaking are divided into molten iron and molten steel. The molten iron sampler used to check the components of molten iron received in the ironmaking process uses a mold type sampler, but the molten steel sampler is dependent on the characteristics of the component to be measured. Therefore, disk-type samplers, mold-type samplers, and pin-type samplers are used.

Disk-type samplers are also divided according to whether they are component samples of molten steel that have been deoxidized or those that have not been deoxidized. is empty In this way, various samplers have been developed in terms of ensuring the integrity of the sample in order to accurately measure the components, and have been developed in various subdivided ways.

Recently, the quality improvement area of steelmaking is expanding from simply removing inclusions in molten steel to the area of fine control of components. This is because precision in component control is required to control deviations in physical properties that a product may have by uniformly controlling the exact components rather than satisfying the component range on the product standard.

From this point of view, most of the component samplers in steelmaking are covered with protective caps in the low-carbon area. The protective cap of the sampler is installed on the top of the sampler to prevent burnout of the thermocouple when the sampler is initially immersed in molten steel and to prevent inflow of slag into the inside. When the first sampler is immersed in the molten steel, the protective cap protects the sampler until the molten steel of the compatible component flows into the sampler. The protective cap of the sampler immersed in the molten steel to a certain depth is melted and the molten steel flows into the sampler. At this time, the material of the low carbon region (C≤0.04%) is used to prevent the melted protective cap from losing the consistency of the components of the molten steel. Use a protective cap made of However, the problem is that when taking component samples of high carbon (C≥0.8%) molten steel, these sampler materials cause problems.

Most of the low carbon steel, which is the material of the protective cap, has a melting point exceeding 1,530℃. Therefore, when processing ultra-low carbon molten steel or low carbon molten steel in the secondary refining, the molten steel temperature can be melted in the range of 1,550 ~ 1,580 ℃. However, in the case of molten steel in the high carbon region, the temperature of the molten steel processed in refining is lower than 1,550°C.

The protective cap of the existing sampler for ultra-low carbon steel is made of ultra-low carbon steel with a melting point of at least 1,530℃ to minimize [C] Pickup. As a result of this situation, the protective cap of the sampler immersed in the molten steel to collect component samples during processing of high carbon steel is not completely dissolved, so the component sample is not secured, or even if it is secured, the molten steel is not properly filled, resulting in samples that cannot be analyzed for components. A problem occurred.

The present invention is a technology in which only the shape of the protective cap of the sampler is changed so that the low-temperature molten steel can be properly filled in the sampler while the material of the protective cap, which does not affect the components of the molten steel, is maintained as low-carbon steel as in the prior art.

The matters described as the background art above are only for improving understanding of the background of the present invention, and should not be taken as an admission that they correspond to prior art already known to those skilled in the art.

KR 10-2013-0024187 A

An object of the present invention is to provide a sampler protective cap capable of smoothly collecting molten steel by preventing the inflow of slag into the sampler and at the same time widening the reaction area with molten steel.

A protective cap for preventing the inflow of slag into a sampler for collecting molten steel according to the present invention for achieving the above object includes a head portion covering a molten steel inlet of the sampler; And a skirt portion extending downward along the circumference of the lower end of the head portion, connected to a portion where the molten steel inlet of the sampler is formed, formed along a direction extending downward, and provided with a plurality of slits spaced apart from each other along the circumference of the head portion; includes

An extension portion extending downward along the circumference of the lower end of the skirt portion and formed to surround an outer surface of the sampler may be further included, and a plurality of slits may extend to the extension portion.

A plurality of slits are formed at regular intervals, and the interval may be in the range of 1 to 2 mm.

The head part and the skirt part are formed of low carbon steel having a carbon (C) content of 0.04wt% or less of the total content, so that they can be used for sampling high carbon steel.

A sampler for taking samples of molten steel according to the present invention for achieving the above object includes a sample case having an opening so that molten steel flows into the inside; a body accommodating the sample case therein and having a molten steel inlet formed therein so that molten steel flows in along the opening; a molten steel suction pipe inserted into the opening to communicate with the opening and penetrating the molten steel suction port; and a protective cap that prevents slag from flowing into the sample case and is dissolved by contact with molten steel.

The protective cap includes a head portion covering the molten steel inlet of the body; A skirt portion extending downward along the circumference of the lower end of the head portion, connected to the molten steel suction pipe of the sampler, formed along a direction extending downward, and having a plurality of slits spaced apart from each other along the circumference of the head portion; and an extension portion that extends downward along the circumference of the lower end of the skirt portion and surrounds the outer surface of the body to protect the sample case.

A plurality of slits may extend from the skirt portion to the extension portion.

According to the high carbon steel sampler protection cap of the present invention as described above, due to the presence of a plurality of slits formed in the skirt portion, inflow of slag into the sampler is prevented and at the same time, rapid collection of molten steel according to reaction with molten steel is ensured. make it possible

As a result, it is possible to maintain the clean state of the sample, which is the component sample of molten steel, and only change the shape of the protective cap made of the existing material without any extra effort to change the material of the protective cap, saving costs other than cutting costs for forming multiple slits. It can reduce production cost.

1 is a view showing a sampler protection cap according to an embodiment of the present invention.
2 is a view showing a sampler protection cap according to an embodiment of the present invention.
3 is a view showing a molten steel sampler according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, look at preferred embodiments of the present invention.

As shown in Figure 1, the protective cap for preventing the inflow of slag into the sampler for collecting molten steel according to the present invention includes a head portion 10 covering the molten steel inlet of the sampler; And a plurality of heads extending downward along the circumference of the lower end, connected to a portion where the molten steel inlet of the sampler is formed, formed along a direction extending downward, and spaced apart from each other along the circumference of the head portion 10. A skirt portion 20 provided with a slit 21 of the; includes.

The protective cap capable of taking a sample of molten steel in a clean state by being melted even in high-carbon molten steel with a low melting point while preventing the inflow of slag is divided into a head part 10 and a skirt part 20. In the case of the head portion 10, it is sufficient if it can prevent the inflow of slag by covering the molten steel inlet provided in the sampler, and there is no restriction on the shape. As shown in FIG. 1, it may be configured in an arch shape.

The skirt portion 20 is made of the same material as the head portion 10 . It extends downward along the circumference of the lower end of the head part 10, and is directly connected to the part where the molten steel inlet of the sampler is formed. A plurality of slits are formed on the outer circumferential surface of the skirt portion 20. Preferably, they are formed along a direction extending downward of the skirt portion 20, and are spaced apart from each other along the circumference of the head portion 10. is formed Due to the presence of the plurality of slits 21, the reaction area with the molten steel is increased, so that the protective cap is sufficiently melted by the heat of the molten steel so that the molten steel can be introduced through the molten steel inlet opened by the melting.

Therefore, it is not necessary to change the material of the low carbon steel protective cap to another material to solve the existing problem of not being able to collect the molten steel as a sample because the protective cap is not properly melted due to the low temperature of the high carbon molten steel. In other words, it is possible to completely solve the existing problem by changing only the shape of the protective cap while using the material without additional effort and investment to change the material of the protective cap.

On the other hand, the plurality of slits 21, as mentioned above, in addition to serving to increase the reaction area with molten steel, prevent slag from entering the inside of the sampler when passing through the slag layer on the upper part of the molten steel in the process of entering the molten steel. .

Since contamination of the molten steel to be sampled occurs when slag flows into the sampler, the protective cap needs to selectively collect only the molten steel while preventing the inflow of slag. In order to solve such a conventional problem, a method of providing a plurality of through holes in the protective cap was sought, but as a result, there was a problem in that the inflow of slag could not be prevented.

In the case of the sampler protection cap according to the present invention, a plurality of slits 21 formed in the skirt portion 20 are provided, but the plurality of slits 21 are formed at equal intervals, and the intervals are formed in the range of 1 to 2 mm. If the interval between the plurality of slits 21 is less than 1 mm, the inflow of slag between the slits 21 can be prevented, but the phenomenon that the slag rather blocks the slits 21 occurs, thereby reducing the inflow of molten steel into the sampler. The spacing should be 1 mm or more. On the other hand, when the interval between the slits 21 exceeds 2 mm, slag may flow into the sampler. Therefore, the separation distance should be less than 2mm.

As shown in FIG. 2, the sampler protection cap according to the present invention further includes an extension part 30 extending downward along the circumference of the lower end of the skirt part 20 and surrounding the outer surface of the sampler, and a plurality of slits 21 It may extend to this extension part 30 .

The sampler for collecting molten steel accommodates the sample case 100 for inflowing molten steel and the sample case 100 inside, and has a body 200 with a molten steel inlet formed as its components. In order to protect the case 100 from a high temperature of 1,500° C. or higher, a sleeve 210 having heat resistance is generally disposed on the surface of the body 200 .

However, even in the case of the sleeve 210, it is eventually damaged by high temperature, which causes a problem of having to be replaced regularly. Therefore, in the case of the sampler protection cap according to the present invention, in addition to the skirt portion 20 in which the head portion 10 and the plurality of slits 21 are formed, an extension extending downward along the circumference of the lower end of the skirt portion 20 to surround the sampler ( 30) is provided. The extension 30 primarily serves to protect the sleeve 210 disposed on the surface of the sampler body 200 described above from high temperatures.

In the case of the sampler protection cap, since it is a consumable part that aims to be completely dissolved in molten steel, the durability of the sleeve 210 disposed on the surface of the body 200 is further improved by primarily protecting the body 200 of the sampler from high temperatures effect can be expected.

The extension part 30 preferably extends to cover the portion where the sample case 100 is placed inside, and has an effect of protecting the sample case 100 as well.

Preferably, since the plurality of slits 21 formed in the skirt extend without interruption to the extension part 30, the reaction area with the molten steel is further increased, and the smooth dissolution of the sampler protective cap by the molten steel can be further accelerated. there is.

The head portion 10 and the skirt portion 20 of the sampler protection cap according to the present invention are formed of low carbon steel having a carbon (C) content of 0.04 wt% or less of the total content, and can be used for sampling high carbon steel. As mentioned above, the sampler protection cap is generally made of low carbon steel. In the case of the present invention, while using the generally used low-carbon steel as it is, the skirt portion 20 having a plurality of slits 21 is formed to increase the reaction area with the molten steel and to control the spacing of the plurality of slits 21. It aims at a sampler protection cap that completely dissolves by molten steel while preventing the inflow of slag. Therefore, the head part 10 and the skirt part 20 are formed of the conventional low carbon steel of 0.04% or less.

As shown in FIG. 3, the sampler for taking samples of molten steel according to the present invention includes a sample case 100 having an opening so that molten steel flows into the inside; A body 200 accommodating the sample case 100 therein and having a molten steel inlet formed therein so that molten steel flows along the opening; a molten steel suction pipe 300 inserted into the opening to communicate with the opening and penetrating the molten steel suction port; and a protective cap that prevents slag from flowing into the sample case 100 and is dissolved by contact with molten steel.

The protective cap 400 is connected in a form surrounding the molten steel suction pipe 300 to cover the molten steel suction port. By covering the molten steel inlet in this way, inflow of slag into the sample case 100 is prevented. However, since molten steel must be taken as a sample, it must be quickly dissolved by the molten steel so that the molten steel inlet can be opened. In addition, the protective cap 400 is connected to the molten steel suction pipe 300 so as to surround the molten steel suction pipe 300 to protect the molten steel suction pipe 300 formed of quartz from high temperatures.

In order to quickly dissolve the protective cap 400 by contact with molten steel, the protective cap 400 preferably includes a head portion 10 covering the molten steel inlet of the body 200; A plurality of pluralities extending downward along the circumference of the lower end of the head portion 10, connected to the molten steel suction pipe 300 of the sampler, formed along the direction extending downward, and spaced apart from each other along the circumference of the head portion 10. a skirt portion 20 having a slit 21; and an extension part 30 extending downward along the circumference of the lower end of the skirt part 20 and surrounding the outer surface of the body 200 to protect the sample case 100 .

Due to the plurality of slits 21 formed in the skirt part 20 connected to the molten steel suction pipe 300, the contact area with molten steel widens, so that the protective cap 400 can be rapidly moved by molten steel without changing the material constituting the protective cap 400. It is possible to dissolve Since the contact area of the skirt portion 20 is larger than that of the head portion 10, the skirt portion 20 is first melted by molten steel, and since the skirt portion 20 is connected to the molten steel suction pipe 300, the head portion ( Even if 10) is not completely melted by molten steel, the melting furnace protective cap 400 of the skirt portion 20 can be separated from the sampler, and accordingly, the molten steel inlet can be opened.

On the other hand, the protective cap prevents slag inflow and dissolves by molten steel, and also protects the body 200 having the sleeve 210 and the sample case 100 inside due to the existence of the extension part 30 extending from the skirt part 20. can play a role in protecting

Preferably, in the case of the extension part 30, the inner surface is formed to correspond to the shape of the body 200, and can cover the sleeve 210 formed in the body 200. By primarily protecting the body 200 of the sampler from high temperatures, the effect of further improving the durability of the sleeve 210 disposed on the surface of the body 200 can be expected. In addition, it extends to cover the portion where the sample case 100 inside the body 200 is disposed, and thus has an effect of protecting the sample case 100 as well.

Meanwhile, the plurality of slits 21 extend from the skirt portion 20 to the extension portion 30 to further increase the reaction area with the molten steel, so that the extension portion 30 can also be quickly melted by the molten steel.

Although the present invention has been shown and described in relation to specific embodiments, it is known in the art that the present invention can be variously improved and changed without departing from the technical spirit of the present invention provided by the claims below. It will be self-evident to those skilled in the art.

10: head part 20: skirt part
21: slit 30: extension
100: sample case 200: body
210: sleeve 300: molten steel suction pipe
400: protective cap

Claims (7)

As a protective cap that prevents slag from entering the sampler for collecting molten steel and is dissolved by molten steel,
A head portion covering the molten steel inlet of the sampler; and
a skirt portion extending downward along the circumference of the lower end of the head portion and connected to a portion where the molten steel inlet of the sampler is formed;
a plurality of slits formed along a direction extending downward from the skirt portion and spaced apart from each other along the circumference of the skirt portion;
The plurality of slits are formed at equal intervals, and the interval of the slits is in the range of 1 to 2 mm,
The head part and the skirt part are formed of low carbon steel having a carbon (C) content of 0.04 wt% or less of the total content, and are used for sampling high carbon steel. According to claim 1,
An extension portion extending downward along the circumference of the lower end of the skirt portion and formed to surround the outer surface of the sampler; further comprising,
Sampler protection cap, characterized in that the plurality of slits extend to the extension portion. delete delete As a sampler for taking samples of molten steel,
A sample case having an opening through which molten steel flows into the inside;
a body accommodating the sample case therein and having a molten steel inlet formed therein so that molten steel flows in along the opening;
a molten steel suction pipe inserted into the opening to communicate with the opening and penetrating the molten steel suction port; and
A protective cap that prevents slag from entering the sample case and is dissolved by contact with molten steel;
The protective cap,
a head portion covering the molten steel inlet of the body;
a skirt portion extending downward along the circumference of the lower end of the head portion and connected to a portion where the molten steel inlet of the sampler is formed;
a plurality of slits formed along a direction extending downward from the skirt portion and spaced apart from each other along the circumference of the skirt portion;
The plurality of slits are formed at equal intervals, and the interval of the slits is in the range of 1 to 2 mm,
The head part and the skirt part are formed of low carbon steel having a carbon (C) content of 0.04wt% or less of the total content, and are used for sampling high carbon steel. According to claim 5,
and an extension portion extending downward along a circumference of a lower end of the skirt portion and covering an outer surface of the body to protect the sample case. According to claim 6,
The molten steel sampler, characterized in that the plurality of slits extend from the skirt portion to the extension portion.

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