KR910005491Y1 - Continual test thermometer of fusing metal - Google Patents

Abstract

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Description

Thermometer for continuous measurement of molten metal

1 is a cross-sectional view of a temperature measuring device according to a first embodiment of the present invention.

2 is a sectional view of principal parts of a second embodiment.

3 is a sectional view of principal parts of a third embodiment.

* Explanation of symbols for main parts of the drawings

1: terminal box 2: ceramic tube

3: insulation tube 4, 13: thermocouple

12: correction wire 14: cable tube

15 gas supply pipe 16 recording device

17 control circuit 18 gas supply device

20: alarm device 25: socket

26 plug 27 insulation base

25: socket fixing plate

The present invention relates to a thermometer for continuously measuring the temperature of molten metal, such as molten steel.

Conventionally, in order to measure the temperature of the molten metal, a tube made of a ceramic with a thermocouple inserted therein has been used by immersion in the molten metal.

In this case, a thermocouple of pt / ptRh (platinum-platinum rhodium) was commonly used, but from a technical and borderline point of view, it was used to connect a single pair of wiring to the mechanism of voltmeters installed at a monitor point relatively far from the temperature measurement point. It was very difficult to seal. In order to solve such a problem, conventionally, correction purpose lines have always been used.

An intermediate terminal box is generally used to connect the correction wires to the thermocouple wiring. That is, the intermediate terminal box is provided at the tip of the ceramic tube in which the thermocouple is inserted, and one end of each of the correction conductors corresponding to the one end of the thermocouple is coupled in a locking member provided in the intermediate terminal box so as to be coupled, thereby making a compensation junction. junction) is formed. The other end of each calibration lead is connected to the input terminal of the mechanism.

In this state, the correction junction of the pair needs to be maintained at a given temperature to accurately measure the temperature of the molten metal, but this is difficult to achieve because the intermediate terminal box is provided near the heat source and is affected.

One way to solve this problem is to suppress the temperature rise by continuously injecting cooling gas into the intermediate terminal box. Even so, the temperature of the locking member is increased due to the radiant heat emitted from the heat source and the conduction heat conducted through each member after a long time, and the cooling effect obtained by using the cooling gas tends to be reduced by the temperature rise of the locking member. In addition, the supply of the cooling gas could be reduced or completely stopped due to the cooling gas supply pipe or an operation defect. Even if this event occurs only once, the measurement of the molten metal temperature loses its reliability. In the prior art, there was no means for monitoring the temperature of the locking member used to couple one end of the thermocouple and one end of each correction line, and this temperature caused an error in the temperature measurement of the molten metal. For this reason, the conventional molten metal temperature measuring apparatus has a defect that the temperature difference measured after a long time has become unreliable.

The present invention has been made to solve the above problems, and to provide a thermometer that can continuously measure the temperature of the molten metal, correction wire for connecting the thermocouple, thermocouple to the input terminal of the mechanical device, molten metal Locking for connecting the one end of the thermocouple to the one end of each calibration wire, housed in the end box, the terminal box installed at the tip of the tube, etc. An element comprising a member, wherein the element for measuring the temperature of the locking member is installed on or near one locking member and the element is connected to a machine or the like provided outside the terminal box.

Hereinafter, with reference to the accompanying drawings will be described in detail the removed embodiment of the present invention.

Reference numeral 1 in FIG. 1 is fixed to the tip of the ceramic tube 2 showing the terminal box. The pt / ptRh thermocouple 4 is inserted into the tube 2 via the insulating tube 3 and the temperature measuring contact 5 of the thermocouple 4 is located at the lowest point in the tube 4. In the terminal box 1, the insulation bonding base 7 is installed at the bottom of the terminal box 1 as bolts 8, 8 ′ via the heat insulating plate 6. Correction joint mounting bolts 9 and 9 'are mounted on the insulating joint base and the pairs of nuts 10, 10', 11 and 11 'are fitted to the respective bolts 9 and 9'. Each pair of nuts (10, 10 '), (11, 11') hold one end of the thermocouple (4) and one end of each calibration lead (12) therebetween so that these members are electrically conductive. Used to form a correction junction.

The head of the bolt 8 is provided with a hole and a temperature measuring junction of, for example, T-type (copper-constantan) is inserted therein as the second thermocouple 13 and fixed by a fixing screw or the like. The second thermocouple 13 and the correction lead 12 are inserted through a cable tube inserted into the gas supply pipe 15 on the terminal box 1 and the cable tube 14 is led to the outside of the gas supply to the monitor point The lead wire 13 and the lead wire 12 are drawn out to the outside.

The other end of each calibration lead drawn out of the cable tube 14 is connected to an input terminal of a recording device 16 including a voltmeter and a recorder, and the other end of the second thermocouple 13 is also a voltmeter, a recorder, a comparison circuit, etc. It is connected to the input terminal of the configured control circuit 17.

Reference numeral 18 denotes a gas supply device for compressing and supplying cooling gas to the terminal box 1 through the gas supply pipe 15, and the cooling gas supplied to the terminal box 1 is bolts 8, 8 ', 9, 9 ') and nuts 10, 10', 11, 11 'are designed to discharge warm air or gas from the terminal box 1, and exit from the gas discharge port 19.

In a thermometer configured to continuously measure the temperature of the molten metal as described above, the temperature of the molten metal is measured by the thermocouple 4 when the lower port of the tube 2 is submerged into the molten metal to start the temperature measurement. And continuous recording by the recording device 16.

The volts 8 temperature in the terminal box 1 is also continuously measured by the second thermocouple 13 and the output of the second thermocouple 13 is sent to the control circuit 17 to be input to the control circuit 17 and recorded. It is compared with a predetermined set temperature by the comparison circuit provided in the control circuit 17 as well. If it is determined that the measured temperature of the bolt 8 is equal to or higher than the set temperature, the control circuit 17 sends a signal to the alarm device 20, at which time the alarm device 20 operates. The absorber informs that the correction junction temperature of the nuts 10, 10 ′, 11, 11 ′ acting as a locking member for the thermocouple 4 and the correction lead 12 by the operation of the alarm device 20 is above the set temperature. do. This is because both the correction joint nuts 10, 10 ', 11, 11' and the bolt 8 are in the same thermal environment generated by heat transfer from the heat source.

This allows the observer to check in the gas supply line, adjust the gas supply device or take any other necessary measures, thereby ensuring that the temperature of the calibration junction of the thermocouple 4 is always below the set temperature, so that the temperature of the molten metal You can measure it.

In addition, between the control circuit 17 and the gas supply apparatus, the gas supply apparatus is controlled to compare the temperature of the input bolt 8 with the set temperature so that the control circuit 17 is based on the magnitude of the difference calculated by the comparison circuit. A control line 21 (indicated by the dashed line in FIG. 1) may be provided to adjust the flow rate.

2 shows a second embodiment of the present invention, in which the correcting contact mounting bolt 9 is provided with a hole and the second thermocouple 13 is provided with a temperature measuring contact therein. This configuration makes it possible to directly measure the temperature of the corrected contact mounting bolt 9.

3 shows a third embodiment of the present invention, wherein the locking member for coupling the thermocouple 4 and the correction lead 12 together consists of a socket 25 and a plug 26 and the second thermocouple 13 The correction joint is disposed in the hole provided in the socket fixing bolt 27 used to fix the socket 25 to the socket fixing plate 28 fixed to the insulating joint base 7 as the bolt 8. In this embodiment, a combination of sockets and plugs is used, so only a simple operation is required to connect the pair to the correction line.

Increasing the temperature between the thermocouple and the calibration lead can be a source of error in measuring the temperature of the molten metal. By using the present invention, it is possible to measure the temperature of such a joint and therefore, various measures can be taken to maintain the junction temperature at a normal level by activating the alarm device based on the measured result, thus continuously measuring the temperature of the molten metal. It is possible to improve the reliability of the thermometer.

Claims (1)

A thermometer for continuously measuring the temperature of a molten metal, comprising: a thermocouple, a calibration conductor for inducing the thermocouple to an input terminal such as a mechanical device, a ceramic tube having a temperature measuring junction of the thermocouple embedded therein, and submerged in a molten metal; A terminal box installed at the tip of the terminal, including a locking member embedded in the terminal box for coupling one end of the thermocouple lead and one end of each correction conductor, wherein the temperature measuring element of the locking member is provided in a mechanical device provided outside the terminal box. A thermometer for continuous measurement of temperature of molten metal, characterized in that it is provided at or near one of the locking members to be connected.