Casting facility includes a pouring machine for pouring molten metal in a ladle into a mold molded by a molding machine and conveyed to a pouring site, and the pouring machine includes a plan acquisition unit configured to acquire a planned temperature range of the molten metal for the mold, a temperature sensor configured to detect a temperature of a pouring flow during pouring of the molten metal into the mold, and a temperature determination unit configured to determine whether or not the temperature of the pouring flow is within the planned temperature range, and the pouring machine stops the pouring of the molten metal into the mold when it is determined that the temperature of the pouring flow is not within the planned temperature range.

Casting facility includes a pouring machine for pouring molten metal in a ladle into a mold molded by a molding machine and conveyed to a pouring site, and the pouring machine includes a plan acquisition unit configured to acquire a planned temperature range of the molten metal for the mold, a temperature sensor configured to detect a temperature of a pouring flow during pouring of the molten metal into the mold, and a temperature determination unit configured to determine whether or not the temperature of the pouring flow is within the planned temperature range, and the pouring machine stops the pouring of the molten metal into the mold when it is determined that the temperature of the pouring flow is not within the planned temperature range.

Plate condition tool for the measurement of condition data of slide gate valve plates coupled to the slide gate valve of a metallurgic vessel, said slide gate valve comprising a collector nozzle, said plate condition tool comprising: a) a main body comprising an obturator for obturating at least partially the collector nozzle; b) a gas injecting device comprising a pressure regulator for injecting a gas in the collector nozzle through the obturator; c) a gas flow measuring device for measuring the flow of the gas injected by the gas injecting device d) a controller being communicatively connected to the gas flow measuring device and being configured to receive input data relating to the relative position of the slide gate valve plates; and wherein the obturator comprises a seal holder for holding a collector nozzle seal.

Plate condition tool for the measurement of condition data of slide gate valve plates coupled to the slide gate valve of a metallurgic vessel, said slide gate valve comprising a collector nozzle, said plate condition tool comprising: a) a main body comprising an obturator for obturating at least partially the collector nozzle; b) a gas injecting device comprising a pressure regulator for injecting a gas in the collector nozzle through the obturator; c) a gas flow measuring device for measuring the flow of the gas injected by the gas injecting device d) a controller being communicatively connected to the gas flow measuring device and being configured to receive input data relating to the relative position of the slide gate valve plates; and wherein the obturator comprises a seal holder for holding a collector nozzle seal.

System for tracking and assessing the condition of replaceable refractory elements in a metallurgic facility comprising: a) a plurality of identifiable metallurgical vessels, such as ladles, wherein each one of said identifiable metallurgical vessels comprises removable refractory elements, such as slide gate valve plates; b) a plurality of replacement refractory elements, wherein each replacement refractory element comprises a machine-readable identification tag comprising refractory element identification data; c) a reading station, such as an RFID workbench, for reading the machine-readable identification tags of a replacement refractory element positioned in a reading zone of the reading station; d) a refractory condition tool for assessing the condition of refractory elements coupled to anyone of said metallurgical vessels; e) a monitoring unit connectable to the reading station and the refractory condition tool.

System for tracking and assessing the condition of replaceable refractory elements in a metallurgic facility comprising: a) a plurality of identifiable metallurgical vessels, such as ladles, wherein each one of said identifiable metallurgical vessels comprises removable refractory elements, such as slide gate valve plates; b) a plurality of replacement refractory elements, wherein each replacement refractory element comprises a machine-readable identification tag comprising refractory element identification data; c) a reading station, such as an RFID workbench, for reading the machine-readable identification tags of a replacement refractory element positioned in a reading zone of the reading station; d) a refractory condition tool for assessing the condition of refractory elements coupled to anyone of said metallurgical vessels; e) a monitoring unit connectable to the reading station and the refractory condition tool.

System for tracking and assessing the condition of replaceable refractory elements in a metallurgic facility comprising: a) a plurality of identifiable metallurgical vessels, such as ladles, wherein each one of said identifiable metallurgical vessels comprises removable refractory elements, such as slide gate valve plates; b) a plurality of replacement refractory elements, wherein each replacement refractory element comprises a machine-readable identification tag comprising refractory element identification data; c) a reading station, such as an RFID workbench, for reading the machine-readable identification tags of a replacement refractory element positioned in a reading zone of the reading station; d) a refractory condition tool for assessing the condition of refractory elements coupled to anyone of said metallurgical vessels; e) a monitoring unit connectable to the reading station and the refractory condition tool.

System for tracking and assessing the condition of replaceable refractory elements in a metallurgic facility comprising: a) a plurality of identifiable metallurgical vessels, such as ladles, wherein each one of said identifiable metallurgical vessels comprises removable refractory elements, such as slide gate valve plates; b) a plurality of replacement refractory elements, wherein each replacement refractory element comprises a machine-readable identification tag comprising refractory element identification data; c) a reading station, such as an RFID workbench, for reading the machine-readable identification tags of a replacement refractory element positioned in a reading zone of the reading station; d) a refractory condition tool for assessing the condition of refractory elements coupled to anyone of said metallurgical vessels; e) a monitoring unit connectable to the reading station and the refractory condition tool.

Plate condition tool for the measurement of condition data of slide gate valve plates coupled to the slide gate valve of a metallurgic vessel, said slide gate valve comprising a collector nozzle, said plate condition tool comprising: a) a main body comprising an obturator for obturating at least partially the collector nozzle; b) a gas injecting device comprising a pressure regulator for injecting a gas in the collector nozzle through the obturator; c) a gas flow measuring device for measuring the flow of the gas injected by the gas injecting device d) a controller being communicatively connected to the gas flow measuring device and being configured to receive input data relating to the relative position of the slide gate valve plates; and wherein the obturator comprises a seal holder for holding a collector nozzle seal.

The disclosure relates to a transfer equipment, an aluminum liquid transfer system and an aluminum liquid transfer method. An exemplary transfer equipment comprises a rail platform; a pushing device; a rotating device; wherein the two ends of the rail platforms are adapted to interface with a rail-type transfer trolley running on the casting line, so that the molten liquid container can be transferred from a rail-type transfer trolley on one casting line to one end of the rail platform, and from the other end of the rail platform to a rail-type transfer trolley on the adjacent other casting line, and the turnplate of the rotating device is adapted to interface with the transfer rail on the rail platform, so that the molten liquid container can be transferred from the transfer rail to the turnplate, and to the transfer rail after the orientation has been changed by rotation on the turnplate.