KR100939317B1 - A Probe for Collecting Molten Metal Sampler - Google Patents

Abstract

The present invention relates to the design of the prober (3) for collecting a portion of the wire or steel, more specifically, the tip of the prober (3) is made of pulp (18) When the gas passes through the slag 22 layer and reaches the interface layer of the molten iron 25 or the molten steel 26, the pulp 18 is burned in the melt to generate a certain amount of gas (CO, CO2). 24) to prevent the inhalation of other inclusions (24) such as slag mixing by inflation and vertical molten iron, molten steel inlet (16) to take the sample and to exhaust the deoxidation gas to the upper gas hole during solidification Molten iron, molten steel sampler sampling prober.

According to the present invention, when the pulp 18 is initially burned in the melt, gas gas (CO) is generated to push the inclusions 24, and then the good molten iron 25 and the molten steel 26 are sampled through the vertical suction port 16. While the solidification process in the mold chamber 15 takes a good sample in which the tissue is airtight, and also prevents air bubbles due to the gas hole through which the gas is exhausted by aluminum deoxidation to the upper side to prevent bubbles. Pipe can be prevented.

Description

A Probe for Collecting Molten Metal Sampler}

1: Schematic drawing of molten iron and molten steel sample

2 is a cross-sectional view of the prober device of the present invention

3 is a detailed cross-sectional view of the melt inlet of the present invention

Figure 4: Shape of existing prober

5: Shape cross section of existing sample mold chamber

            <Description of the codes for the main parts of the drawing>

2: Horizontal molten iron, molten steel inlet 3: Probe 4: Steel cap

5: Branch 11: Pulp Cap 12: Ceramic

13: Connector 14: Compensation Wire (Cable) 15: Sample Mold

16: vertical molten iron, molten steel suction port 17: quartz tube 18: pulp

21: Ladle 22: Slag

23: Interface layer (the plane which the molten iron or molten steel and slag borders)

24: Inclusion (Impurity in molten iron or molten steel slag: SiO2.Al2O3.P2O5.CaO.MnO.MgO.TiO2.S)

25: Hot Metal 26: Molten Steel 27: Air-Shooter                 

28: horizontal molten iron, molten steel inlet 29: wood portion 30: gas hole

31: steel

The present invention relates to the design of the prober (3) for collecting a portion of the wire or steel, more specifically, the tip of the prober (3) is made of pulp (18) When the gas passes through the slag 22 layer and reaches the interface layer of the molten iron 25 or the molten steel 26, the pulp 18 is burned in the melt to generate a certain amount of gas (CO, CO2). 24) to prevent the inhalation of other inclusions (24) such as slag mixing by inflation and vertical molten iron, molten steel inlet (16) to take the sample and to exhaust the deoxidation gas to the upper gas hole during solidification Molten iron, molten steel sampler sampling prober.

In general, steel mills collect samples of molten wire or steel using a mold of a specific device, and use [C], [Mn], [Si], and [P] required for steel materials and applications. It is used to analyze special components such as [S]. However, when the sample is collected, the horizontal molten iron and the molten steel suction port 2 of the existing prober 3 are positioned on the horizontal line with the interfacial layer 23, and thus, the slag 22 may be mixed when the sample is collected. In order to prevent mixing, the thin steel plate which blocks the intake port is pre-solidified in case of low amount of wire or steel, which melts flowing sideways at low temperatures, and weighs incompletely. In addition, poor light emission has occurred due to the roughness of the surface. In addition, as the gas hole exhausted by aluminum deoxidation during solidification is directed downward, various defects such as weight loss, pin hole, slag mixing, poor light emission, pipe generation, etc. occur during sample analysis after sampling. As a result, the analysis accuracy rate is falling. As a result, in case of quality abnormalities, proper measures cannot be taken, which results in extraordinary problems and problems in productivity, resulting in delayed turnover or delay in processing time. In addition, there was a problem that the safety accident of the worker in the operation of hitting or cutting the upper portion of the irregular wood portion 29 of the inlet with a tool (hammer).

The present invention was devised to solve the above problems, it is designed as a vertical molten iron, molten steel suction port 16 using the specific gravity of the molten iron 25, the molten steel (26) when sampling with the prober (3) It is possible to prevent the undershoot, to prevent the roughness of the surface to remove the light emission, in particular, when the sample is pulp (18) is burned (gas) while generating a gas (CO, CO2) inclusions 24 To prevent the slag 22 from being mixed, and also to prevent the pin hole, the pipe, etc., by directing the gas hole through which gas is exhausted by aluminum deoxidation during solidification, to prevent the occurrence of pin holes, pipes, etc. The inlet 16 has a constant shape so that it can be immediately transferred to the analysis chamber by using a pneumatic tube in a cooled or glowing state without a separate price or cutting. Excellent sex Contribute to the production and quality improvement and has the purpose to prevent accidents of workers.

The molten iron and molten steel sampler sampling prober of the present invention for achieving the above object is connected to the molten iron, molten steel inlet 16 and the upper portion of the molten iron, molten steel inlet 16 formed perpendicular to the distal end of the branch pipe (5) and the gas on the top The sample mold chamber 15 in which the hole is formed, the ceramic 12 filled in the paper tube 5 while surrounding the molten iron, the molten steel suction port 16, and the sample mold chamber 15, and the paper tube 5 It is characterized in that it is composed of a pulp (18) attached to the tip of the, a compensation lead 14 connected to the tip of the branch pipe (5), and a connector (13) to be connected to the holder.

In addition, the pulp 18 is covered with a pulp cap 11, the compensation wire 14 is connected by a gap between the branch pipe 5 and the branch pipe 5, the gas of the sample mold chamber 15 A plurality of holes are formed around the center of the upper surface.

In other words, the present invention is the vertical molten iron, the molten steel suction port 16 and the pulp 18 at the tip of the prober 3 to burn the molten wire or steel using a specific gravity. (燃燒) while generating gas (CO, CO2) to push the inclusions 24, and prevent the mixing of the slag (22), and the gas hole in which the gas is exhausted by aluminum deoxidation during solidification upward The vertical molten iron to direct the pin hole, the gas hole to prevent the pipe, and the suction port to guide the melt into the sample mold chamber 15 to have a uniform shape to facilitate separation from the sample mold chamber 15. , The molten steel suction port 16, and the pulp cap 11, which protects the compensating wire from heat and discharges the gas 12, the suction cap or the quartz tube 17 from shock or foreign matter, Compensation wire (14) for measuring and flowing current, holder and program It consists of a connector (13) connecting the rover (3).

The operation of the present invention configured as described above will be described in detail with reference to the accompanying drawings. 2 is a cross-sectional view of the prober device of the present invention. 3 is a detailed cross-sectional view of the melt inlet of the present invention.

  Characteristic of the present invention is that the vertical molten iron into which the melt enters using the specific gravity of the wire or steel, the molten steel suction port 16 can obtain a sample with sufficient amount and hermetic airtight, so It can also prevent the emission failure. In particular, the tip of the prober 3 is made of pulp 18. When the sampler passes through the slag 22 layer and reaches the interface layer 23 of the molten iron 25 or the molten steel 26 at the time of sampling, the pulp As the (18) is burned in the melt, a certain amount of gas (CO, CO2) is generated to push the inclusions 24 to float, so that slag mixing does not occur and other inclusions 24 are not inhaled. In the analysis, no defect was generated. In addition, it is possible to prevent the generation of pin holes, pipes, etc. by preventing the generation of bubbles by directing the gas hole through which gas is exhausted by aluminum deoxidation during solidification. In addition, this prevented underweight, pin hole, slag mixing, light emission failure, and pipe generation. The collected sample is separated from the sample mold chamber 15 by one or two impacts because the shape of the suction port 16 is constant, and is directly cooled by using the pneumatic tube 27 in a state of being cooled or glowing without a separate price (hammer) or cutting. It is designed to be sent to the analysis room.

 Therefore, the present invention is a vertical molten iron using the specific gravity buoyancy of the molten wire or steel, the molten steel suction port 16, while the pulp (18) is combusted when the sample is taken to the gas (CO, CO2) To prevent the slag 22 from being mixed into the suction port by pushing the inclusions 24, and also to prevent bubbles due to the gas hole where the gas is exhausted by aluminum deoxidation when it is solidified upward. , Pipe can be prevented. By improving the accuracy rate during sample analysis by securing the components of molten iron and molten steel in advance, it is used for pre- and post-process operation to improve quality and productivity and shorten the processing time of the operation. Or it can be transferred to the analysis chamber process in the red state has the effect of ensuring the safety of the operator.

   Table 1 below is a chart comparing the results of each sample taken with a conventional prober and the inventor of the present invention. As can be seen from the comparison result, the sample obtained by the conventional existing product reaches a defective rate of 14.3%, but when the sample is taken with the present invention, it can be seen that the defect rate is significantly reduced to 2.3%.

<Table 1> Sample Defective Rate Test Results

* Test place: 5th charter preparatory group of POSCO 2 steel plant. Date: 2002.07.03 ~ 07.11

division Temperature (℃) Ingredient [S] Sum Quantity of test () Quantity bad Quantity of test () Quantity bad Defective rate(%) Existing product 182 0 182 27 14.3 Invention 173 One 173 4 2.3

Therefore, according to the present invention, when the pulp 18 is initially burned in the melt, the gas value (CO) is generated to push the inclusions 24, and then the good molten iron 25 and the molten steel 26 pass through the vertical suction port 16. While the solidification process is taken in the sample mold chamber 15, a good sample in which the tissue is airtight is collected. In addition, since the gas hole through which the gas is evacuated by aluminum deoxidation is directed upward, bubbles are prevented from being pinned. , Pipe can be prevented. The suction port made into a certain shape by the above action is separated by one or two impacts, and thus, the suction port is hot and cooled without a separate cutting process and can be transferred to the analysis chamber.

Claims (4)

A molten iron, a molten steel suction port 16 formed perpendicularly to the distal end portion of the branch pipe 5, A sample mold chamber 15 connected to an upper end of the molten iron and the molten steel suction port 16 and having a plurality of gas holes formed around a center of an upper surface thereof; A ceramic 12 filled in the branch pipe 5 while surrounding the molten iron, the molten steel suction port 16 and the sample mold chamber 15; A pulp 18 attached to the distal end of the branch pipe 5 and covered with a pulp cap 11; Compensation wire 14 connected to the distal end of the branch pipe 5 and connected by a gap between the branch pipe 5 and the branch pipe 5, A molten iron, molten steel sampler sampling prober, characterized in that the connector 13 is configured to be connected to the holder. delete delete delete

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