CS211653B1 - Crystallizer consisting of permanent mould provided with cooling pressure plates on outer walls - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a crystallizer consisting of a casting mold on the outer walls provided with pressure cooling plates connected to the inlet and outlet of a cooling medium.

Contemporary crystallizers for horizontal continuous casting of non-circular profiles are usually designed as a non-detachable welded box construction with a flange allowing the crystallizer to be attached to a holding furnace. The inner wall of the cavity of the box-type crystallizer is in contact with the casting mold in which the metal crystallizes. The partition wall formed by the casing is cooled by water on the principle of countercurrent cooler.

A second possible solution is to create a crystallizer cavity from the individual cooling plates in the chamber of each cooling plate. For on two ribs.

for a casting mold of the desired shape by a composition withdrawn by the yoke. Cooling water distribution Better channeling of the water flow is provided by the chamber. The disadvantage of both methods is the non-directional flow in the crystallizer chamber and the welded box cooling of all the walls of the casting mold.

The above-mentioned drawbacks are eliminated by a solution in which the crystallizer consists of a casting mold on the outer walls provided with pressure cooling plates, which according to the invention are connected to the inlet and outlet of the cooling medium by means of a shut-off plate and corresponding piping. The water cooling the cooling plate flows through a continuous worm-shaped groove formed transverse to the profile casting direction. The continuous groove has the same cross-sectional area as the inlet pipe.

The advantage of the solution according to the invention is that the cooling plates can be cast from ferrous and non-ferrous metals by simple preparation of the modeling equipment and simple molding. The continuous worm-shaped groove ensures a streamlined flow of water and thus even cooling of the cooling plate and the casting mold. Compared to contemporary crystallisers, it enables to achieve higher casting capacities and more even distribution of the structure on the surface of the cast profile. The continuous groove eliminates the formation of steam cushions and loss of cooling water velocity at the transition from the supply line to the cooling plate.

An exemplary embodiment of the crystallizer according to the invention is shown in the accompanying drawing, wherein Fig. 1 shows the overall embodiment of the crystallizer in front view and Fig. 2 shows a detail of the cooling plate in plan view.

Crystallizer for continuous casting of profiles, consisting of a casting mold J in the form of a graphite insert, provided on the outer walls with cooling plates 2 and 2 connected to the inlet J and 6 and the outlet 4 ^and 2 of the cooling water. In the cooling plates 2 and 2, a continuous worm-shaped groove 8 with a depth of more than 2/3 of the thickness of the cooling plates 2 and 2 is cast ^on the open side of which a closure plate is fixed. Cooling water outlets 4 ^and 2.

The continuous casting crystallizer according to the invention can be successfully used in all sectors where the casting of profiles of gray cast iron, cast steel, steel and other ferrous and non-ferrous metals of similar casting properties is performed.

Claims (1)

SUBJECT OF THE INVENTION Crystallizer consisting of a casting mold on the outer walls provided with pressure cooling plates connected to the coolant inlet and outlet, characterized in that a continuous worm-shaped groove (8) is formed in the pressure cooling plates (2, 5), the depth of which is greater than 2/3 of the thickness of the cooling plate (2, 5) and on the open side of the continuous groove (8) a fastening plate (9) is provided on the cooling plates (2, 5), provided with an inlet (3, 6) against the ends of the continuous groove (8) e by removing (4, 7) the coolant.