SU1183288A1 - Horizontal installation for semicontinuous casting of metal - Google Patents

Description

The invention relates to metallurgy, and more specifically to the non-linear casting of metals and alloys. The purpose of the invention is to improve the quality of the ingot produced. In FIG. 1 shows the installation, a general view of FIG. 2 - the option of performing additional capacity, the lid of which is provided with a nozzle. The installation contains a container 1 for molten metal 2, a mold 3 with an end wall 4 in which an opening 5 is made, connected by a metal conductor 6 with an additional capacity 7 mounted for movement along the technological axis of the installation. In the proposed embodiment, an additional capacity 7 adjoins the crystallizer 3 is connected with it and installed together with the crystallizer 3 on the same trolley 8. At the same time, the additional tank 7 is provided with a krppka 9 tightly connected to it and a branch pipe 10 made in the lid 9 to supply positive or negative pressure. The installation works as follows. The molten metal enters the bucket 11 into the tank 1 through the casting cup 12 and fills the cavity of the mold 3, which is initially pulled over the pouring cup 12. After holding for a few seconds, the trolley 8 with the mold 3 and capacity 7 will the drive 13 begins to move away from the tank 1 along the guides 14 along the technological axis of the installation. From the surface of the ingot 15, so much heat is removed that a crust 16 is formed, forming channel 17, through which the molten metal 2 feeds the ingot 15. After the ingot 15 leaves the crystallizer 3, it enters the secondary cooling zone, which provides the necessary strength of the crust 16. For removal non-metallic inclusions and gases from the liquid phase of the ingot 15 during the casting process transfer the molten metal 2 from the tank 1 to the additional tank 7 and vice versa due to the change in the amount of metal 18 supplied from the ladle 11, periodically and supplying the metal in quantities greater or less than that required at a given speed of movement of the mold. With an increased consumption of metal in comparison with the working one, an excess part of the metal enters the additional tank 7, and the channel 17 evolving during the crystallization of nonmetallic inclusions and gases, which in the additional tank 7 evolve and are removed or assimilated by the slag in this tank, is carried away. At a lower metal consumption, as compared to the working one, a part of the metal continues to flow into the channel 17 of the ingot 15 from the bucket 11, and the missing part of the metal reaches the working consumption from the additional capacity 7. The frequency of the change in the metal consumption and the difference between the working and supplied metal flows. regulate the degree of refining of the metal. Rip-off ends when all the liquid metal 18 is released from the bucket 11. At this point the cart 8 is stopped and the liquid core of the ingot 15 solidifies. The proposed installation allows em. improve the quality of the ingot produced by removing nonmetallic inclusions, gases and gases from the liquid phase of the ingot (in an additional container.

Claims (3)

1. INSTALLATION FOR SEMI-CONTINUOUS CASTING OF METAL HORIZON- A TALK TYPE containing a container for molten metal, a mold with an end wall, a device for moving it along the technological axis of the installation, and a metal wire, characterized in that, in order to improve the quality of the ingot obtained, an opening is made in the end wall of the mold, and the installation equipped with an additional container with a lid connected by a metal wire with an opening in the end wall of the mold and installed with the possibility of movement along the technological axis of the installation. 2. Installation of π. 1, which is characterized in that the additional container is sealed. 3. Install pop. 1, characterized in that the additional container is equipped with a nozzle located in the lid. <Put. 1 □ O 00 N0 00 00