KR830001353B1 - Temperature measuring method of molten metal in the container - Google Patents

Abstract

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Description

Temperature measuring method of molten metal in the container

1 is a cross-sectional view of a thermostat used in the method of the present invention.

2 is a diagram showing an example of the temperature measurement state.

TECHNICAL FIELD This invention relates to the measuring method of the molten metal temperature in a container which continuously measures the temperature of the molten metal accommodated in the container, such as a tundish and a molten metal, for example.

For example, the continuous measurement of molten steel temperature in turdish dish in continuous casting operation is very important for smooth and efficient operation and the production of high quality cast steel. To this end, a conventional method is generally carried out in a heat-resistant protective tube from the top of a toon dish, hangs a thermocouple connected to a conductor at an end, and immerses it in a molten steel to measure the temperature of the molten steel using a thermometer. Measured.

However, in the conventional method as described above, since the protective tube in which the thermocouple is stored is eroded by slug floating on the molten steel surface, continuous temperature measurement for a long time is difficult, and the tip of the temperature measuring element is prevented from fluctuations in the surface of the molten steel. It is easy to cause errors in the measurement result because it is affected by. In addition, as a result of the connection between the thermocouple and the conducting wire located above the vessel, the conducting wire is easily melted due to the radiant heat of the molten steel in the vessel, and the thermocouple itself has to be lengthened and the cost is high to prevent the melting. There was a problem. In addition, the temperature measurement from the side wall of the container was not practical because the protective tube was broken due to the heating shock during the molten steel injection due to the durability of the thermocouple protective tube.

The present invention provides a method for measuring the temperature of molten metal in a container for the purpose of continuously and accurately measuring the temperature of the molten metal contained in the container without being affected by slug or fluctuations in the surface. And cover at least a tip portion of the thermocouple, which is a thermocouple housed in an alumina protective tube, with a quartz glass tube covering the cell and the cell from the inside toward the outside, wherein the coated temperature is projected into the container. A coated thermometer is attached to the side wall of the vessel, molten metal is injected into the vessel and the thermometer is immersed in the molten metal, and the temperature of the molten metal in the vessel is continuously measured by the impregnated thermometer. In the temperature measurement method of the molten metal accommodated in the container which is to be ,

A predetermined total level of allowable level of the hot water surface of the molten metal when the temperature measurement is attached to the side wall of the container through the insertion hole of the side wall of the container, and its attachment position is separated from the bottom of the container, and the molten metal is received in the container; Lower than, if necessary, by injecting additional molten metal so that the temperature of the molten metal contained in the container is always kept higher than or at least equal to the preselected minimum allowable level of the molten metal of the molten metal; It is characterized in that it does not come into contact with the molten slug floating on the molten metal.

Next, the present invention will be described with reference to the embodiments.

In Fig. 1, an example of a thermometer for use in the method of the present invention is shown in cross section. The thermostat 1 is formed of, for example, a thermocouple 2 made of platinum and platinum thorium, an alumina protective tube 4 in which the thermocouple 2 is accommodated, and the alumina. It consists of a quartz glass tube (6) mounted on the outer circumferential surface of the molten metal contact portion of the vaginal protective tube (4) via a ceramic fiber (5), and the heat resistance between the alumina protective tube (4) and the opening of the quartz glass tube (6). Cement 7 is filled. (8) is a connection connector of the thermocouple (2), (9) is a thermocouple terminal provided on the connection connector (8), (10) is a compensating wire and one end thereof is a thermocouple terminal (9), the other end of the thermometer (11) ) Is connected.

In the present invention, by measuring the temperature of the molten metal in the container by inserting the temperature measuring element 11 configured as described above in the container from the side wall of the container, Figure 2 shows an example of the temperature measurement state in cross-sectional view. In the figure, reference numeral 12 denotes a container for accommodating molten metal, 14 denotes a side wall thereof, 14 'a low wall, and all are formed of a refractory material. (15) and (15 ') are fireproof coating agents.

One side wall 14 of the vessel 12 is separated from the bottom of the vessel 12, and when the molten metal is received in the vessel 12, it is lower than the preselected minimum allowable level (a) of the molten metal surface. In the position which is not influenced by the fluctuation of the hot water surface, the temperature measuring part insertion hole 16 is installed in the horizontal direction, and the front end part in which the temperature measuring part 1 was piled up by the quartz glass tube 6 in the insertion hole 16 has a container side wall. It is inserted and protruded by about 20 mm or more from the inner surface of (14), and the stamping material 17 such as magnesia stamping material and zircon stamping material is filled between the insertion hole 16 and the temperature measuring member 1 to be sure. By the compaction, the thermometer 1 is fixed to the side wall 14 of the container 12 in the horizontal direction. The thermocouple 2 of the thermometer 1 is connected to the compensation lead 10 of the thermometer 11 by the connector 8 on the outer surface side of the container side wall.

When the molten metal is injected into the container 12 with the temperature measuring element 1 as described above, the temperature of the molten metal 18 is detected by the temperature measuring element 1 and the connection connector 8 and the compensation lead 10 are connected. Measurement can be carried out at all times by the thermometer (11).

By injecting additional molten metal, if necessary, the level of the molten metal contained in the container 12 is always kept above, or at least equal to, the preselected minimum allowable level (a) of the molten metal. As a result, the temperature measuring element 1 is positioned below the pre-selected minimum allowable level a of the molten metal of the molten metal of the container 12 at a position not affected by the fluctuation of the molten metal of the molten metal. Since the slug 19 floating on the molten metal surface is not corroded because it is protruded in the horizontal direction, it can be measured accurately. In addition, the temperature measuring element 1 coats the outer circumferential surface of the alumina protective tube 4 which is susceptible to heat shock with a ceramic fiber 5 and injects molten metal by wrapping the outer circumferential surface of the ceramic fiber 5 with a quartz glass tube 6. Initial heating shock is prevented and the thermometer 1 is capable of continuous temperature measurement for a long time without being broken even in hot molten metal. In addition, since the connection connector 8 with the compensation lead 10 is located near the outside of the side wall 14 of the container 12, the influence of the radiant heat received by the molten metal in the container is prevented. Therefore, the length of the thermocouple 2 is shortened and the cost can be reduced. In addition, if the refractory material is filled in the space between the alumina protective tube 4 and the thermocouple 2 of the thermostat 1, the molten metal flows out of the alumina protective tube 4 when the alumina protective tube is broken. There is no work. In the above embodiment, the thermometer 1 is inserted into the container side wall in a horizontal state, but may be inserted in an inclined state.

As described above, according to the present invention, since the molten metal temperature can be accurately measured over a long time continuously without being affected by slugs or fluctuations in the surface of the molten metal, it is used in, for example, a round die shoe of continuous casting. In this case, it is possible to cast smoothly and effectively, and to produce casts of high quality.

Claims (1)

A continuous temperature measurement method of molten metal in which a molten glove floats on its hot water surface accommodated in the container 12, wherein the temperature measuring element 1 made of a thermocouple 2 housed in the alumina protective tube 4 has at least the tip portion thereof. A thermocouple covered with a ceramic fiber 5 and a quartz glass tube 6 covering the cellular fiber 5 from the inner side to the outer side, wherein the coated thermostat 1 is coated so as to protrude in the container 12. (1) is attached to the side wall 14 of the vessel 12, the molten metal is injected into the vessel 12 and the thermostat 1 is immersed in the molten metal, and the vessel is immersed by the soaked thermostat 1 In the method for continuously measuring the temperature of the molten metal in the (12), the side temperature measuring element 1 of the side wall 14 of the container 12 through the insertion hole 16 of the side wall 14 of the container 12 Molten gold when the molten metal is received in the container 12 It is below the preselected minimum allowable level (a) of the hot water surface of the inside, and if necessary, the level of the hot water surface of the molten metal contained in the container 12 is always higher than the preselected minimum allowable level (a) of the hot water surface of the molten metal. A method for temperature measurement of molten metal in a container characterized by keeping at least the same so that the temperature measuring element (1) does not come into contact with the molten metal slug floating on the molten metal surface.

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