SU1747221A1 - Box-type grooved pass - Google Patents

Abstract

Use: production of rolled products on blooming and slabing, cutting gauges in the rolls of blooming and billet mills. SUMMARY OF THE INVENTION: The caliber of blooming contains a convex bottom. In this case, the convex bottom contains an additional bulge, the width of which is 0.3-0.6 the width of the main bulge, and the height 0 3-1.0 of the height of the main bulge. The height of the additional convexity of the bottom of the lower stream is more than the height of the additional convexity of the upper stream by 1.05-1.3 times. 1 il.

Description

The invention relates to rolling production and can be used in the manufacture of the shashirovyh calibers of blooming, continuous billet mills and rough gauges for rolling some varietal profiles.

The purpose of the invention is to increase the wear resistance and the service life of the caliber, the quality of rolled products by improving the development of the middle part of the section of the roll and the stability of the roll when rolling.

The drawing shows the caliber caliber.

The essence of the invention is that the proposed caliber consists of flat side faces 1, mating elements 2 and a bottom concave relative to the axis of symmetry 00 of the bottom 3. The bottom 3 of the caliber is made with secondary bulges 4 and 5 on

lower and upper rolls, respectively. The height of the secondary bulges TV and g is 0.3-1.0 the height of the primary bulge t of the bottom 3 gauge. The height tn of the secondary bulge 4 on the lower roll is greater than the height m in the secondary bulge 5 on the upper roll and is 1.05-1.3 last in the range of 0.3-1.0 t. The width of the secondary bulges bb and bn is 0.3-0.6 the width of the primary bulge b of the bottom 3 gauge. The minimum height of the secondary bulge, equal to 0.3 of the height of the primary bulge, is defined as the minimum value, which has the effect of increasing the durability of the caliber. Reducing the height of the secondary bulge less than 0.3 the height of the primary bulge does not give a tangible effect in increasing the durability of the caliber by increasing the number of VJ VJ

Yu GO

About the material of the roll in the zone of application of the secondary bulge.

The maximum value of the height of the secondary bulge, equal to 1.0 of the height of the primary bulge, is defined as the maximum value, which allows to avoid the formation of a sunset in subsequent passes after the strip canting 90 °. In addition, an increase in the height of the secondary bulge of more than 1.0 in the height of the primary bulge increases the intensity of wear of the mating elements by increasing the outflow of the metal into the broadening.

The minimum width of the secondary bulge, equal to 0.3 of the width of the primary bulge, is defined as the minimum value giving a positive effect by providing a shape of the secondary bulge such that for any value of the height of the secondary bulge within the specified limits 0.3-1.0 convexity eliminates the possibility of formation of sunsets during post-deformation after turning through 90 °.

The maximum width of the secondary bulge, equal to 0.6 of the width of the primary bulge, is defined as the maximum value that does not distort the corner radii of the walls and the bottom of the gauge in the direction of their decrease and, therefore, does not affect the intensity of wear of the gauge surface at the points of the interface of the walls and bottom.

The minimum value of the ratio of the height of the lower secondary bulge to the height of the upper secondary bulge is equal to 1.05 determined on the basis of experimental data on the wear of the surface of shoe gauges when rolling varietal profiles on small- and medium-size mills.

The maximum value of the ratio of the height of the lower secondary bulge to the height of the upper secondary bulge is 1.3, determined on the basis of experimental data on the wear of the gauge surface during rolling on blooming ingots of large weight.

Box caliber works as follows.

When crimping a billet or ingot in a cabinet caliber, when idle passes, the central part of the bottom of the lower broach caliber is subjected to the most intensive wear due to the effect of significant contact pressures (during rolling) and friction forces on the contact with the strip (at idle passes). The central part of the bottom of the gauge on the upper roll is also subjected to intensive wear due to the high contact pressure during rolling. Placing secondary bulges in the central part of the convex caliber bottom increases durability and durability.

gauge, and also allows you to achieve higher quality of rolling and a more uniform distribution of mechanical properties over the cross section of the strip by intensifying the deformation study of the structure

0 internal layers of metal. Making the secondary bulge at the bottom of the lower roll stream higher than that of the upper roll stream contributes to a more uniform wear of the upper and lower formers, thereby increasing the overall durability of the gauge and the quality of rolled metal by ensuring its correct geometric shape.

Example. On a large mill

0 950/800 second gauge of the 950 crimp stand is made 250 mm wide across the bottom. The height of the gauge at the interface is 190 mm. The side walls of the caliber have a slope of 20%. The convex bottom of the gauge is made

5 with a secondary bulge on the lower and upper rolls. The height of the primary bulge is 3 mm. The width of the primary bulge is 190 mm. The secondary bulge of the bottom of the lower brook of the caliber is 3 mm high and 90 mm wide. The secondary bulge of the bottom of the upper brook caliber has a height of 2.3 mm and a width of 90 mm. Thus, the height of the secondary convexity of the bottom of the lower caliber brook is 1.3 heights of the secondary convexity of the bottom of the upper brook of the caliber.

Claims (1)

Making secondary bulges along the bottom of the caliber of different heights for the upper and lower rolls increases the caliber's durability by 15%, improves the quality of the workpiece by preventing the metal from redistributing towards the more wearable bottom roll lower caliber and intensifying the deformation development of the inner layers metal, increase the stability of the band in the caliber. Claim box gauge for rolling stockpiles containing side walls, a bottom of a convex shape and elements of their conjugation, characterized in that, in order to improve wear resistance and service life of the gauge, the quality of rolling by improving the middle part of the cross section and stability of the roll when rolling, the bottom of the gauge is made with an additional convexity located on the main convexity symmetrically along the axis of the gauge, the width of which is 0.30, 6, and a height of 0.3-1.0 the width and height of the basic convexity o, and the height of the additional convexity of the lower stream is 1.05-1.3 the height of the secondary convexity of the upper stream.