SU709973A1 - Device for sampling molten metal samples - Google Patents

Description

The invention relates to the field of instrumentation and can be used in metallurgy, in particular in converter-production of steel for.

• control of technological parameters. ^e liquid metal.

A device is known for measuring the temperature of a liquid metal and determining its carbon content by the liquidus temperature '. [1].

The device comprises a housing with a sampler, inside of which there is a thermocouple for measuring the temperature of liquid metal. The temperature of the molten metal inside the converter is measured ’5 by another thermocouple located at the end of the housing.

The disadvantage of this device is the impossibility of directly transferring the sample to an analyzing device 20, which determines the chemical composition of liquid metal, which reduces the reliability of the device.

The closest in technical essence and the achieved effect to the present invention. Is a device for sampling liquid metal containing a casing made of heat-resistant material, inside of which an ejector with a channel is placed, and a pipe installed behind the ejector [2].

The disadvantage of this device is the impossibility of simultaneously sampling and measuring the temperature of the metal. In addition, due to the lack of a replaceable ejector housing, it is impossible to quickly dismantle the device, which reduces the reliability and increases the cost of restoring the device.

The aim of the invention is to provide simultaneous sampling · and measuring the temperature of the liquid metal and improving the reliability of the device.

The goal is achieved by the fact that the proposed ejector is equipped with a removable refractory insert located between the casing and the ejector and equipped with installed in its body contact rings and thermocouple.

The ejector and refractory insert are installed coaxially.

The drawing shows the described device for sampling liquid metal, section.

A device for sampling liquid metal comprises a housing 1 made of cardboard and coated with a refractory composition, inside of which there is a refractory insert 2 having the shape of a glass. An ejector 3 made of refractory material is placed inside the insert; At the same end of the ejector, channels 5 are made radially, by means of which the annular channel 4 is connected to the ejection zone 6 of the ejector 3. At the end of the insert 2, a refractory tube 7 is installed, the upper end of which is in the ejection zone 6 of the ejector 3, and the lower end extends beyond the lower surface of the end face of the insert 2. At the end of the insert 2, a U-shaped quartz tube 8 _{P is} rigidly mounted inside which a thermocouple 9 is placed, for example a thermocouple, the thermoelectric wires 10 and 11 of which are placed in quartz tubes 12 and 13 in bodies e insertion. The ends of the thermoelectric wires are connected to the contact rings 14 and 15 located on the upper end of the insert. The contact rings are closed by a plug 16. The refractory insert 2 with the ejector 3 is mounted in the housing 1 so that the contact rings 14 and 15 are connected by a plug 17 to the compensation wire 18, and the ejector 3 is pressed against the pipe 19, along which the dusty metal particles together with the ejector gas supplied to the analyzer. To prevent the ingress of slag into the refractory tube 7, the latter together with the thermocouple is closed with a fusible protective cap 20. The device for sampling is introduced into the reservoir with liquid metal using a rod 21,

The device operates as follows.

Through the rod 21, the device is introduced into the reservoir with liquid metal under a layer of slag. In this case, compressed air or inert gas is supplied under pressure to channel 4. After melting the cap 20, the temperature of the liquid metal is measured by the thermocouple 9 and simultaneously 10 the metal is sucked by the tube 7. At the outlet of the tube 7, the liquid metal in the ejection zone 6 is sprayed and fed into the analyzer in the form of solid particles of the mixture with gas through the pipe 19.

Claims (2)

The invention relates to the field of instrumentation and can be used in metallurgy, in particular in the converter-production of steel. control of technological parameters of liquid metal. A device is known for measuring the temperature of a liquid marker and determining its carbon content from the liquidus temperature 1. The device includes a housing with a sampler, inside which is placed a thermocouple for measuring the temperature of the liquid metal. The temperature of the liquid metal inside the converter is measured by another thermocouple located at the end of the housing. A disadvantage of this device is the impossibility of directly transferring the sample to the analyzing device, which determines the chemical composition of the liquid metal, which reduces the reliability of the device, the closest to the technical essence and the achieved effect to the proposed invention. is a liquid metal sampling device, comprising a housing made of heat resistant material, inside which an ejector with a channel is placed, and a pipe installed behind ejector 2. A disadvantage of this device is the impossibility of simultaneously sampling and measuring the temperature of the metal. In addition, the absence of a removable ejector body is impossible to quickly dismantle the device, which reduces the reliability of work and increases the cost of restoring the device. The aim of the invention is to provide simultaneous sampling and measurement of the temperature of the liquid metal and increase the reliability of the device. The goal is achieved by the fact that the proposed ejector is equipped with a removable refractory insert located between the casing and the ejector and equipped with contact rings installed in its body and a thermoelement. The ejector and refractory insert are mounted coaxially. The drawing shows the described device for sampling a liquid metal, a slit. A device for sampling a liquid metal contains a body 1 made of cardboard and coated with a refractory BOM, and inside KOTCpoio is a refractory insert 2 having a forktu glass. Inside the insert, an ejector 3 made of refractory material, rigidly fixed with the lower end at the bottom of the insert and forming the annular channel 4 with the side-surface of the last, designed for gas flow. At the same end of the ejector there are radial channels 5, through which the annular channel 4 connects to the ejector zone b of ejector 3. At the end of insert 2, there is a refractory tube 7, the upper end of which is in the ejector zone b of ejector 3 and the lower end protrudes beyond the lower surface of the end face of the insert 2. At the end of the insert 2, an i-shaped quartz tube 8 is rigidly installed, inside which a thermocouple 9 is placed, for example a thermocouple, whose thermoelectric wires 10 and 11 are placed in quartz tubes 12 and 13 body insert. The ends of the thermoelectric wires are connected to contact rings 14 and 15 located on the upper end of the insert. Slip rings on top are closed with a plug 16, Refractory insert 2 with ejector 3 is installed in housing 1 in such a way that contact rings 14 and 15 are connected by plug 17 with compensation wire 18, and ejector 3 is pressed against pipe 19, along which dust particles of metal together with & lm lm gas is supplied to the analyzer. To prevent the cap from entering the refractory tube 7, the latter, together with the thermocouple, is closed with a fusible enclosed cap 20. A device for sampling is introduced into the reservoir with liquid metal by means of a rod 21 The device operates as follows. Through the rod 21, the device is introduced into the tank with liquid metal under the slag layer. In addition, compressed air or inert gas is supplied under pressure through channel 4. After the cap 20 is melted, the temperature of the liquid metal is measured by the thermoelement 9 and simultaneously the metal is sucked in by the tube 7. At the outlet of the tube 7, the liquid metal in the ejecting zone 6 is sprayed and in the form of solid particles of a mixture with gas through the tube 19 is fed to an analyzing device. Claim 1. A liquid metal sampling device comprising a housing made of heat-resistant material with an ejector with a channel inside and a pipe installed behind the ejector, in order to simultaneously take a sample and measure the temperature and increase reliability of work, the ejector is equipped with a removable refractory insert located between the casing and the ejector and equipped with fixed rings in its body and a thermoelement -. 2. A device according to claim 1, characterized in that the ejector and the refractory insert are mounted coaxially. Sources of information taken into account during the examination 1 D.W. Kern P.D Stelts PT Tradeneck Sensorlauce for EOF Control Toumalcfmetals. 1971, p. 9. 2. Patent of Great Britain No. 1,231.344 B 2 F, 1968. go