RU2115507C1 - Roll-crystallizer with inner cooling - Google Patents

Abstract

FIELD: foundry, namely, continuous casting of metallic belt or circle by freezing on roll-crystallizer. SUBSTANCE: roll includes barrel 1 with band 2 rigidly connected with left and right trunnions 3,4. Cooling grooves in the form of multiple screw thread are made on surface of barrel. Grooves are connected by means of radial openings widened by 30-40 degrees from center of barrel to band and designed for feeding and removing cooling agent. EFFECT: enhanced cooling degree of working surface of roll. 2 dwg

Description

 The invention relates to foundry, in particular to the continuous casting of a tape or circle of metal by freezing on a roll-mold.

 Known rolls-crystallizers with internal cooling, having longitudinal grooves along the length of the working surface for supplying refrigerant to them, as well as rolls with sprayer and circulation cooling systems [1].

 Cooling systems in known mold rolls do not provide uniform distribution of refrigerant. There are uncooled zones; cracks and tears appear on the resulting profile.

 A known roll-mold for the manufacture of tape material directly from the melt by rapid cooling in the form of a barrel on which a bandage is worn. On the surface of the barrel, annular grooves are made, connected to two radial holes for supplying and discharging refrigerant [2].

 A disadvantage of the known mold roll is that it has uncooled zones due to stagnation of the refrigerant. This leads to a decrease in the rate of crystallization and the formation of gaps.

 Closest to the proposed is a roll-mold with internal cooling, containing a barrel with a bandage, on the surface of which are made screw cooling grooves connected to radial holes for supplying and discharging refrigerant [3].

 The implementation of screw grooves screw in this mold roll promotes better advancement of the refrigerant, however, it is not sufficient and therefore there are uncooled zones.

 The objective of the invention is the uniform cooling of the roll crystallizer and the reduction of refrigerant consumption.

This is achieved by the fact that in the roll-mold with internal cooling, containing a barrel with a bandage, on the surface of which are made screw cooling grooves connected to radial holes for supplying and discharging refrigerant, screw cooling grooves are made with the direction of the turns opposite to the direction of supply of refrigerant, and radial holes are made expanded in the direction from the center of the barrel to the bandage at 30-40 ^o .

 The implementation of screw cooling grooves with the direction of the turns opposite to the direction of supply of the refrigerant accelerates the progress of the latter, which eliminates the formation of air bubbles and improves cooling of the working surface of the roll.

If the radial holes are expanded from the center of the barrel to the bandage less than 30 ^o , then there will be less refrigerant to enter the grooves and the cooling of the roll will be insufficient. If the expansion is more than 40 ^o , there will be an excessive flow of refrigerant.

 In FIG. 1 shows a mold roll; figure 2 is a section aa in figure 1.

The mold roll consists of a barrel 1, on which a band 2 is attached, rigidly connected to the left 3 and right 4 pins. Multiple helical cooling grooves are made on the surface of the barrel, connected by radial holes for supplying and discharging refrigerant. Radial holes are made expanded in the direction from the center of the barrel to the bandage at 30-40 ^o . The pipe 5 for supplying refrigerant to the internal cooling system is installed in the sleeve 6, pressed into the barrel. To fix the barrel relative to the pins, there is a pin 7.

 The device operates as follows.

 The refrigerant through the pipe 5 is fed to the left axle 3 and through the radial holes enters the screw cooling grooves of the barrel 1, made with the direction of the turns opposite to the direction of movement of the refrigerant. After the refrigerant passes through the grooves, it enters the radial holes on the opposite side of the roll.

Claims (1)

An internal cooling roll-crystallizer comprising a barrel with a bandage, on the surface of which there are screw cooling grooves connected to radial holes for supplying and discharging refrigerant, characterized in that the screw cooling grooves are made with a coil direction opposite to the refrigerant supply direction, and radial holes made extended in the direction from the center of the barrel to the bandage at 30 - 40 ^o .

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