SU87899A1 - Method for continuous casting of ingots - Google Patents

Description

The known methods of continuous casting of ingots with irp. Mononime crystallizers do not provide dense slit without a loose core.

In the described method of continuous casting of ingots, this disadvantage is eliminated by the fact that the casting is carried out under the conditions of crystallization of the metal during the compaction of the metal by compression, leading to the extrusion of the uncured poor quality core from the ingot back into the crystallizer and to an increase in the uniformity of the ingot structure.

FIG. 1 is a schematic sectional view of ycTpoiicTBa; in FIG. 2 shows a section along the section A-A in FIG. 1 with pilpndricheskmpmp rolls, and on. 3 - the same incision with barrel-shaped rolls.

The device consists of a casting ladle /, vertically arranged cooled, for example with a water jacket, a metal mold - crystallizer 2, horizontally arranged adjacent to the crystallizer from the bottom, extruded compression rollers 3, vertically located adjacent to the compression rollers from below, cooled, for example from water with a metal scraper, metal form-wiring 4, ingot 5, horizontally located under the wiring of the guide rolls 6 of continuous section.

The device works as follows.

The metal supplied to the steel-pouring jig buckets J to the catalyticizer 2 flows from above through the glass hole in the bottom of the bucket. In the mold having a living section corresponding to the ingot section (rectangular, circular, etc.), the hardening of the peripheral zone of the ingots occurs, the thickness of which increases gradually in the direction of the harness. When the ingot 5 is solidified in the crystallizer, the ingot 5 with the still uncured in its core is captured by the working rolls U and carried by them downwards, while being pressed out between them with the metal being extruded back into the crystallizer 2.

JN 87899- —The working ingot is sealed by an ingot into the wiring 4 adjacent to the rollers, where it is subjected to additional cooling while gradually and continuously moving downward through the guide rollers 6 to the device (not shown) to cut it into pieces.

The use of guide rolls having a diameter and speed of turning, which are the same with the outer diameter and speed of rotation of the squeeze rolls, eliminates the possibility of rupture of a still uncured ingot under the action of its own weight.

The speed of the ingot movement in the crimping and guiding rolls, the intensity of cooling of the metal in the mold, as well as the height of the ingot, are set such that 4To6iji at the level of the axes of the nip rolls the hardening of the peripheral zone of the required thickness was ensured.

Before pouring the metal from above, a cold ingot of metal is introduced from the bottom into the mold 2 to the wiring 4 through the direction of the roller roll 6. having the same section as an ingot bar. The upper end of the cold ingot introduced from below at the level of the axes of the squeeze rolls forms the bottom of the mold.

After a certain period of time, ensuring the hardening of the required thickness of the peripheral zone of the ingot, after the crystallizer is filled with metal, the squeezing and guide rollers are put into operation and the subsequent continuous casting of the ingots is put into operation.

P) e d e mt and c o b |) e te

Claims (3)

I- Method of continuous casting of ingots, characterized in that, in order to obtain dense ingots without shrinkage shell and loose core, it is cast under conditions of crystallization of the metal when the metal is compacted by compression, leading to extrusion from the ingot of non-hardened poor quality serdpeviny. the guilt. 2. A device for carrying out the method of continuous casting of ingots according to claim 1, characterized in that it is carried out in the form of a plant including: a) a vertically located cooled metal mold, for example, with a water jacket, - crystallizer; b) horizontally located, prnmykayupii to the mold below, hollow squeeze rolls; c) vertically located, adjacent to the squeeze rolls of the bottom, HanpHiyiep with a water jacket, metal form wiring; d) horizontally located at the bottom of the node by conducting continuous cross-section guide rolls. 3. The shape of the working surface of the rolls - cylindrical or barrel-shaped. g: Fig. { / 7- / 7 I I Ji L1It. Fig.Z