RU1497851C - Universal stand for plastic working of metals - Google Patents

Abstract

FIELD: production of rolled product. SUBSTANCE: universal stand has rolls 3 and 4 for rolling of girder sections. Large diameter of vertical rolls 3 allows greater widening of metals adjacent flanges to be obtained. As a result sections with greater width may be produced without changing of lengthening coefficient. EFFECT: wider range of rolled product by providing priority flow of metal with constant lengthening coefficient. 1 dwg

Description

 The invention relates to rolling production and can be used for rolling beam profiles on a continuous high-grade mill with alternating two-roll and universal stands.

 The aim of the invention is to expand the range of rolled products in the production of beam profiles by ensuring the predominant flow of metal flanges with a constant drawing ratio.

 The drawing shows the proposed universal stand.

 A universal stand for metal forming contains a bed made of two cross-shaped cheeks 1 connected by traverses 2, vertical 3 and horizontal 4 non-driven rolls forming a beam gauge installed in pillows 5 on bearing bearings 6 placed between cheeks 1. Moreover, the diameters vertical 3 rolls are greater than the diameters of horizontal 4, which are correlated as 1.10-1.16: 1.

 The universal stand is installed on the output side of the duo drive stand (twin roll) before the next duo drive stand in the processing line.

 The universal crate works as follows. In the process of forming the profile, the beam of the beam section is pushed through the gauge of the non-driven universal stand formed by four rollers installed on the output side of the drive duo of the stand, which pushes, and after the deformation is completed, the roll is removed from the universal stand by the subsequent drive stand of the duo. Pushing and pulling (removing) the roll in the non-driven universal stand is carried out due to the reserve of friction forces in the deformation zone of the drive duo stands.

 The described design of the universal stand was used during experimental testing of the technology for rolling beam profiles (I-beam N 16) on a continuous medium-grade mill 450. Vertical rolls with a diameter of 550 mm and horizontal rolls of 480 mm were installed in it, which corresponds to the proposed ratio of 1.10-1.16 : 1, more specifically 1.14: 1.

 Exceeding the upper value of the range will lead to an unjustified increase in the diameter of the vertical rolls and, consequently, the dimensions and mass of the stand. This circumstance makes it difficult to install a universal stand directly on the bed of the output side of the drive stand of the duo. Autonomous installation of a universal stand will lead to an increase in the distance between the rolling planes of adjacent stands and a loss of longitudinal stability of the rolled metal, i.e. to disruption of the rolling process.

 Excessive reduction in the diameter of the vertical rolls in comparison with the horizontal ones will not provide the required flange broadening, which will lead to a reduction in the rolled stock.

 Measurements of the geometry of the finished products during the experiments showed that the relative increase in the height of the flanges after deformation of the metal in this universal stand is 10-15% higher than this increase obtained by rolling in a known stand.

 Thus, the implementation of vertical rolls with a large diameter in comparison with horizontal rolls in the described universal stand makes it possible to expand the range of rolled products in the production of beam profiles without changing the drawing coefficient, i.e. with the same drawing ratio, a roll with larger flanges is obtained.

Claims (1)

 UNIVERSAL CELL FOR PROCESSING METAL BY PRESSURE, containing a bed, pairwise installed in it forming non-power vertical and horizontal rolls with axes lying in one plane, characterized in that, in order to expand the range of rolled products in the manufacture of beam profiles by ensuring the predominant flow of metal flanges with a constant drawing coefficient, the diameter of the vertical rolls is made large in the ratio (1.10 - 1.16): 1 compared with the diameter of the horizontal rolls.