CS241944B1 - Caliber of cylinders automatic - Google Patents

Abstract

The calibration of automatic rolls is being addressed with the aim of reducing the heterogeneity of rolled tubes. At an angular distance of 60° counted from the dividing plane p, convex notches Z with a depth k equal to 0.15 times the minimum wall thickness of the tube rolled in the automatic roll are created in the roll, which are rounded under the radius R2, the size of which is determined from the relationship _ o -b + Vý.b.H-H^ R2 = ................—.... , where 2 f5.b - 4H b denotes the width of the roll, the size of which is given by the relationship b = </ . H, where it indicates the ratio of the height H to the width b of the roll and is chosen in the range 1.05 to 1.04 a . The contact of two circles of radius Ro is every 60°, measured from the dividing plane P, of a caliber rounded under radius Rj, the size of which is given by the expression Rx = R + k (1 - 8^2), with the dimensions R^, R2, R, b, H, t being given in millimeters.

Description

The invention solves the problem of automatic calibration of rolls with the aim of reducing the unevenness of rolled tubes.

When producing seamless steel pipes by hot oblique rolling on Stiefel rolling lines, an automatic mill is used, which is an irreversible duo with rolls equipped with oval calibers. It is rolled on it in a caliber on a inserted die during direct passage, while the pipe is lengthened, its diameter and wall thickness are reduced. The calibers of the automatic mill rolls are made mainly oval with a widening at the opening of the caliber. The disadvantage of rolling in oval calibers of automatic mills is the uneven course of the wall thickness in the cross sections of the pipe. The greatest thickening of the pipe wall thickness after rolling on an automatic mill is at the opening of the caliber, where a bulge is formed in the gap between the rolls. During experimental monitoring, a characteristic thickening of the wall thickness was also found at the bottom of the caliber and a characteristic weakening of the wall thickness at distances of 60° around the pipe circumference, measured from the bulges. The considerable variation in wall thickness of the tubes after rolling on an automatic machine and the inappropriate distribution of the wall thickness have an adverse effect on further rolling on a smoothing machine and generally worsen the dimensional accuracy of the rolled tubes.

The geometry of the automatic roll calibers according to the invention achieves a significant reduction in the unevenness of the pipe wall thickness and a more advantageous distribution of the wall thickness profile for the subsequent rolling of the pipe on the smoothing machine, and these effects are positively reflected in the reduced unevenness of the rolled pipes.

The essence of the invention is explained in more detail in the following description with reference to the attached drawing, which shows the shape of the caliber

241 944 cylinders, automatics including general dimensioning of individual geometric dimensions and shapes of the caliber. The caliber is divided by the dividing plane £ into two equal halves, of which the upper half is the caliber selection of the upper cylinder of the automatics, the drawing shows. From the illustration it is clear that the basic shape of the caliber is the radius R of a circle, in which convex notches Z with a depth Jc are created at an angular distance of 60°, rounded under the radii R^, Rg. The basic dimensions of the caliber are determined from the relations

H = 2 . R b = ψ . H (1) ^E 1 = R + k (1 - 8 ^ ² ) (2) -b ² + 7T_. b . Η - H ² (3) 2^3 . b - 4H to = 0.13 . t where does it mean H - height caliber, (mm)

R - radius of the gauge, which is selected according to the desired pipe diameter after the automatic machine, (mm) b - width of the gauge, (mm) ψ - ratio of height to width of the gauge) is selected in the range of values 1.03 to Rl'* ^2 “ ^Radius y of the rounding of the notches Z in the gauge, (mm) k - depth of the notch Z in the gauge, equal to 0.13 times the minimum thickness t. of the wall rolled in the automatic machine gauge, (mm)

The radius R^ of the circle with the center is calculated from the geometric construction of the gauge from the relation (2) and the distance A from the center S of the gauge is determined from the relation (1). The circle with the radius Rg and the center Sg passes through the point A and the point B, which is the intersection of the basic circle with the radius R with the arm of the angle <X= 30°, and the size of the radius Rg can be numerically determined from the relation (3) The radius of curvature r of the gauge to the flange is 8 to 20 mm and is controlled empirically depending on the diameter 2R of the gauge. The dimension m is determined by the design of the bench.

During long-term verification of pipe production on a line with an automatic machine equipped with rollers with calibers according to the invention, it was found that for all pipes of the tested diameter range 159» 219 and 245 mm, a reduction in transverse heterogeneity by an average of 20% was achieved, the tolerances of the wall thickness of the pipes were made more precise, and more uniform wear of the rollers of the automatic machine was also observed.

Claims (1)

OBJECT OF THE INVENTION 241 944 Caliber of cylinders, automatics with basic radius R of the caliber circle, which is chosen according to the required diameter of the rolled tube behind the automatics and with the height H of caliber equal to twice the basic radius R, characterized in that at an angular distance of 60 ° calculated from the dividing plane. In the gauge, convex notches Z with a depth k equal to 0.13 times the minimum thickness i of the tube rolled in the gauge of the automatics are formed. which are rounded below. the radius Rp, whose size f ctaficr relationship <2 />? -b ² + H ² Tfr.bH R _o - - '· ................., where * 2 -pb - 4H b - width of caliber, whose size is given by b = (p. H, where ψ indicates the ratio of height H to width b. caliber Jz Th in the range 1.03 to 1.04 and contact two circles of radius J ^e every 60 ° measured from the parting plane £, caliber rounded with a radius R, whose size is determined by expression R ₁ = R + k (1-8 ^ / ^2), the dimensions R, R₂, R, B, H, T are given in millimeters.