SU141662A1 - High-speed method for measuring high temperature of molten metal by low-temperature sensors and device for its implementation - Google Patents

Description

A known method for measuring the high temperature of a molten metal is to immerse a sensor made in the form of a thermocouple with a protective n-tip in the molten metal, the temperature of which is determined by the readings of the secondary device at the time of the onset of thermal equilibrium between the sensor and the molten metal. The large inertia of the sensors leads to a significant measurement duration, which causes a change in the thermoelectric properties of the thermocouple and its rapid destruction. To shorten the measurement time, a device with a differentiator was used that compensated for the inertia of the temperature sensor. The disadvantage of this device is the need to determine the inertia of the sensor in the preliminary experience and in the corresponding manual setting of the device.

The proposed high-speed method for measuring the high temperature of the molten metal by low-temperature sensors with automatic compensation of dynamic error consists in the fact that the inertia of the sensor is determined not in preliminary experience, but continuously in the process of temperature measurement of the metal by finding the ratio of the first to the second time derivative of the sensor reading, as a result, it becomes possible to automate the measurement process.

The device proposed for automatic measurement contains a temperature sensor, a preamplifier, a differentiator. In addition, it used the second differentiator, quad, separator and summing device.

Ho 141662-2

The drawing shows a schematic diagram and a proposed structure.

The device contains a temperature sensor immersed in molten metal /, the signal from which is fed to the preamplifier 2 and further to the summing device 3. Simultaneously from the preamplifier 2, the signal is fed to the differentiator 4, which produces the first time derivative of the sensor readings. The rubbing derivative of the sensor reading is generated on the second differentiator 5.

The signal proportional to the first derivative is received from differentiator 4 through quad 6 to the separating device 7, which also receives a signal proportional to the second derivative from differentiator 5. From the separating device 7 to summing device 3, the result of dividing the square of the first derivative of the H-I second derivative is given. The summing device in the circuit will continuously generate a signal equal to the algebraic sum of two signals: the signal from the sensor and the signal from the dividing device.

The proposed method and device make it possible to measure high temperatures of molten metals with low temperature sensors even if there is a large layer of slag on the metal surface with a significant reduction in the measurement time, which will allow the device to be used at various metallurgical enterprises.

Subject invention

1. High-speed method of measuring high temperature of molten metal by low-temperature sensors with automatic compensation of dynamic error, characterized in that, in order to automatically measure the value of the inertia indicator of the sensor, it is determined as the ratio of the first to second time derivative of the sensor.

 2. An apparatus for carrying out the method according to claim 1, comprising a temperature sensor, a preamplifier and a differentiator, characterized in that, in order to automatically measure the inertia index of the sensor, a second differentiator, quadrant, pitch and summing device is used in it.