KR790002086Y1 - Splash protecter of sampler or thermocouple - Google Patents

Abstract

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Description

Non-splash protector for sampler or thermocouple

1 is a side cross-sectional view of a sampler showing a state using a protective agent of the present invention.

Figure 2 is a side cross-sectional view showing a state using the protective agent of the present invention.

The present invention relates to the improvement of protective materials, such as samplers and thermometers, which are inserted into a molten metal during sampling of molten metal, especially molten steel, or when measuring temperature.

Conventionally, a quartz tube or a measuring terminal is mounted in a cylindrical paper rib in sampling a molten iron, a molten steel, or a temperature measurement. However, when it is inserted into molten iron, a paper rib as a protective material burns badly. Since combustion gas is generated and the surrounding molten iron is stirred, accurate temperature measurement could not be determined in the case of temperature measurement, and in the case of sampling, the gas generated in the molten iron due to the burning of paper sleeve is the The bubbles were inherent in the sample collected by incorporating the inside of the tube, and the operation was dangerous because the gas produced by the combustion of the paper ribs scattered molten iron. Therefore, when using a specific sampler or thermocouple, alumina cement or cr The media Light (Cordierite) if protected as kite, but both were not that high then practical.

Since samplers or thermocouples are generally used as consumables, such expensive protective materials cannot always be used in practical terms, so they are intended to protect sampler quartz tubes or thermocouples with paper sleeves, and to develop inexpensive protective materials. It was desperately desired.

In other words, in order to eliminate the above-mentioned problems by combining the non-splash protective material for protecting the paper ribs with the paper ribs, it does not generate gas by reacting with molten iron and does not easily break during handling and operation. It should satisfy the lighting which should be convenient for the following.

The present invention was devised for such a condition, and it was proved that the most effective mixture of thermoset petroleum resin powder of about 150 mesh and about 200 mesh was added with a small amount of borax as a non-splash protection material. The mixture is adequately infiltrated, molded into a required shape in a pipe or plug shape, and plastically cured, and then non-splash repipes are formed on the outside of the paper sleeve having a quartz tube fixedly embedded therein to form a bond as a protective material.

If the amount of coal resin powder to be added is too high, the fire resistance is not good, the strength at high heat is weakened, and if the amount is too small, the efficiency of addition cannot be exhibited, so the range of 1-15% is the best addition amount.

In addition, when mixing coal resin powder with silica sand, it was proved to be more effective if a small amount of borax was previously mixed with silica sand as a binder. However, when the borax is exceeded in a large amount, the performance is rather deteriorated, so it is better to set it to 3% or less.

Referring to the present invention by the accompanying drawings as follows.

Figure 1 shows the axial end surface of the sampler protected by the non-splash material of the present invention, the quartz tube (1) for sampling is attached to the steel cap (5) on the outside and the stopper (3) on the inner tip In the usual case in which the quartz tube 1 is fixed to the support plug 2 and fixed to the paper rib 4, the paper rib 4 is squeezed and formed in the pipe 6 of the splush material. 1) The support plug 2 is also made of non-splash material.

2 shows a side cross-sectional view of the consumable thermocouple of the paper ribs with a non-splash material. A quartz tube 1 having a platinum wire 1 'is fixed to the support plug 2 to fix the paper ribs 4. In a conventional temperature measuring thermocouple having a steel cap (5) attached to one side of and supporting a quartz tube (1) at the tip of a support plug (2), in the present invention, the paper rib (4) is non-splashed. The pipe 6 of the ash is formed and attached, and the plug 2 is composed of a non-splash material.

An embodiment of a sampler and a thermocouple equipped with the non-splash protection material of the present invention described above is as follows.

Example 1

In the case of sampling with a sampler, the collection efficiency (%) of the intact sample is as follows.

Sampler of conventional paper sleeve. … … … … … … … … … … 25%

Sampler equipped with the non-splash protective material of the present invention. … … 99.9%

That is, when the sampler of the present invention is used, almost all of the collected samples are intact.

Example 2

As a result of measuring the tapping temperature twice at 100 ton converter and measuring the range of up and down difference of tapping temperature, the width of the upper and lower difference is smaller as follows.

Up and down, difference range in case of conventional paper rib thermocouple. … … … … … ± 9 ℃

In the case of the thermocouple equipped with the non-splash protection material of the present invention, the upper and lower sides and the difference range. … … ± 4 ℃

The upper and lower difference ranges are two times the standard deviation.

As described above, the use of the sampler and the thermocouple equipped with the pipe 6 as the non-splash protection material of the present invention has a significant effect on the sampling and measurement temperature of molten iron. There is also an advantage that it can be widely used as a protective material for oxygen concentration cells based on thermoelectric and sampler or thermoelectric power such as thermocouples.

Claims (1)

In a conventional sampler and a thermocouple in which a support plug 2 having a quartz tube 1 fixed thereto is fixed to one side of a paper rib 4, coal paper powder is placed on the silica sand to which a small amount of borax is added. A non-splash protective material for a sampler or a thermocouple, characterized by forming a squeezed-resistant form in a non-splash material pipe (6) which is formed by mixing and forming.