SU466944A1 - Kokil - Google Patents

Description

FIELD OF THE INVENTION The invention relates to foundry, in particular, to chills.

Chillies are known in which half-molds or metal rods operating under stressful temperature conditions are cooled by rigidly attaching closed cooling boxes to them on the back side, inside which they cool the cooling fluid. When casting into a chill mold, thin-walled parts having developed cavities decorated with metal rods, supercooling of rods is unacceptable, which causes the castings to be discarded through cracks and increases the extraction force of the rods from the castings. The overheating of the rods is also unacceptable, at which the productivity of the chill machines is reduced. In the known chill molds, the core is cooled not only during the casting and crystallization period, but also in subsequent periods of exposure, ejection of the casting, servicing, and assembly of the chill mold. This does not exclude a violation of the thermal regime of the rod, for example, its overcooling. Regulation of the thermal regime of the rods is carried out by: intermittently shutting off the supply of coolant to the cooling and day box, for which complex systems are eliminated, which require additional costs and complicate the work with the chill mold.

The described chill mold is characterized in that the rod is connected to the cooling box sub-axially in the axial direction, and on the half-form in which the rod is installed there are stops interacting with it, and the distance to the stops from the interacting surface of the rod is less than the stroke of the drive than the maximum clearance between the rod and the cooling box.

And the drawing shows the described chill mold, a cross-section (along the axis of the rod).

The chill contains left 1 and right 2 half-molds, a metal rod 3, moved in the left half-mold 1, a cooling box 5 connected to the drive 4, which is attached to the metal rod 3 by studs 6 and restricting nuts 7. There are stops 8 on the left half-mold 1,

interacting with the rod 3. At the same time, the nut 7 is set so that a gap a is formed between the plane A of the cooling box 5 and the nut 7.

In the process of assembling the mold, the actuator 4 presses the cooling box 5 to the rod 3, the movement of which is limited by the shoulder 9 or the sign 10 ,. which serves as the beginning of cooling of the rod 3. After the casting crystallizes, the drive 4 through the cooling box 5, the nut, 7 and the stud 6 transfers the force to the rod 3 and removes it from the casting. In this case, a gap is formed between the cooling box 5 and the rod 3.

For reliable formation of a gap between the rod 3 and the cooling box 5, at the end of the stroke of the drive 4, the rod 3 abuts against the stops 8 with its plane B.

In accordance with the selected cooling mode of the rod 3, the time required for the rod 3 not to be supercooled is established, i.e. the holding time of the rod 3 and the cooling box in the open state. Then, the chill mold assembly cycle is repeated, the contact between the rod 3 and the cooling box 5 is restored, which again is pressed tightly against the rod 3, and the rod 3 is again cooled.

As a result of the guaranteed clearance created between the rod and the cooling box for a given period of time, the cooling of the rod is temporarily stopped.

Thus, the described device provides regulation of the thermal regime of a metal rod without any complex automation systems.

Subject invention

A mold containing split half-molds and a metal rod with a cooling box connected to a rod moving actuator, characterized in that, in order to control the temperature mode of the rod, the rod is connected to the cooling box axially movable, while made stops interacting with him.