A container for molten metal is provided with a temperature measuring device arranged in an opening of a container wall. The temperature measuring device has a protective sheath, which projects into the container and which is closed at its end arranged in the container. A temperature measuring element is arranged in an opening of the protective sheath. The protective sheath is composed of a mixture of a heat-resistant metal oxide and graphite, and the closed end is spaced at least 50 mm from the container wall.

Provided is a meniscus flow control device includes: a meniscus flow detection unit for detecting, in a meniscus flow form of molten steel, relative temperature values for positions measured by temperature measurers, and relatively comparing the temperature values measured by the temperature measurers to thereby determine the flow state of the molten steel meniscus to be normal or abnormal; a magnetic field generation unit, installed outside a mold, for generating a magnetic field and controlling the flow of the molten steel by the magnetic field; and a flow control unit for maintaining the operation of the magnetic field generation unit in the current state when the meniscus flow state detected by the meniscus flow detection unit is determined to be normal, and for controlling the magnetic field generation unit to adjust the meniscus flow to be normal when the detected meniscus flow state is determined to be abnormal.

Provided are a method and a system for a slag thickness detection and a slag-adding prediction. The method includes: acquiring real-time measurement data and real-time auxiliary data of a slag point on a surface of a protective slag layer of a casting mold; calculating a real-time slag thickness value corresponding to the slag point by using the real-time measurement data and the real-time auxiliary data of the slag point; and predicting a location on the surface of the protective slag layer where a slag-adding is to be performed and a slag-adding time when the slag-adding is to be performed based on a change in the real-time slag thickness value corresponding to the slag point by taking a preset slag thickness value as a reference.

A method for monitoring a torpedo car in which a position detector PE is used to determine a position deviation between a target position and an actual position of a filling opening E of the torpedo car disposed in a filling station BS for filling it with pig iron and provided with an RFID transponder containing an object data set for identification, the filling opening E is positioned in the target position in the event of a position deviation, the filling level FM in the torpedo car disposed in the target position is measured by means of a filling level meter FM, the temperature of the pig iron filled into the filling opening is measured by means of a temperature meter TM, and data characterizing the position deviation, the filling level and the temperature is added to the object data set of the torpedo car by means of a data processor DV.

A backflow prevention device of a light metal injection device and a backflow prevention method thereof of the disclosure include: a valve which has a valve body made of a corrosion-resistant and heat-resistant steel and a valve seat made of a ceramic, and in which the valve body advances and is seated on the valve seat to close a communication path communicating a melting unit and an injection unit, and the valve body retracts and is separated from the valve seat to open the communication path; a valve body drive device which moves a drive body to which the valve body is connected forward and backward; a position sensor which detects that the drive body has reached at least a predetermined advance limit position; and a valve body drive control device which controls the valve body drive device based on a signal of the position sensor.

A backflow prevention device of a light metal injection device and a backflow prevention method thereof of the disclosure include: a valve which has a valve body made of a corrosion-resistant and heat-resistant steel and a valve seat made of a ceramic, and in which the valve body advances and is seated on the valve seat to close a communication path communicating a melting unit and an injection unit, and the valve body retracts and is separated from the valve seat to open the communication path; a valve body drive device which moves a drive body to which the valve body is connected forward and backward; a position sensor which detects that the drive body has reached at least a predetermined advance limit position; and a valve body drive control device which controls the valve body drive device based on a signal of the position sensor.

A method for measurement of the casting level in a mould incudes the steps of: a) impressing a temporal current profile into a transmitting coil that is arranged at the mould, during a measuring time interval; b) measuring a temporal signal profile resulting in a receiving coil during the measuring time interval, wherein the receiving coil is coupled inductively to the transmitting coil; c) selecting a time window within the measuring time interval, and d) evaluating the measured temporal signal profile within the selected time window to determine the casting level.

A method for measurement of the casting level in a mould incudes the steps of: a) impressing a temporal current profile into a transmitting coil that is arranged at the mould, during a measuring time interval; b) measuring a temporal signal profile resulting in a receiving coil during the measuring time interval, wherein the receiving coil is coupled inductively to the transmitting coil; c) selecting a time window within the measuring time interval, and d) evaluating the measured temporal signal profile within the selected time window to determine the casting level.

A system for detection of the level of a liquid metal within a crystallizer of a mold has a detection system. The detection system is based on a transmission of at least one signal transmitted toward a crystallizer having the liquid metal therein and a reception of a reflection of the transmitted signal. A first ultrasonic element transmits a ultrasonic elastic wave and a second ultrasonic element receives the ultrasonic elastic wave. A processor measures a time elapsed between transmission and reception and correlates the elapsed time relative to the level of liquid metal in the crystallizer.

A method detects a level of a melt contained by an oscillating mold. The method includes a) sensing radiation interacted with the melt and generating from the sensed radiation radiation signals, such that the generated radiation signals are varied by the mold oscillation, b) determining a radiation signal variation of the generated radiation signals, c) determining an oscillation deflection variation of the oscillating mold, and d) determining from the determined oscillation deflection variation and the determined radiation signal variation, the level of the melt.