DE2217423A1 - Roll elongation determination - in a working roll in continuous operation esp in rolling of complex profiles - Google Patents

Abstract

Roll dia. elongation determination in continuous section rolling operation is effected with aid of a pair of photoelectric cells which measure the running-in and outlet speed in front of and behind the roll stand, and compare these, as well as the elongation and reduced cross-section resulting from this and the comparison of the delivery speed and the calculated peripheral speed, so as to obtain the effective. dia.

Description

Method for determining the stretching and the working roll diameter in continuous profile rolling mills.

Section mills such as those in Schwerte or Troisdorf are open mills Type of construction, d. H. the scaffolds are arranged in a strand. In such rolling mills it is not necessary to know the aspect ratio and the working roller diameter. Since the roller bars run out after each stitch and are plugged in again, production is limited and a large number of manpower is required.

If you want to roll complicated profiles continuously, what are the disadvantages switches off the open rolling, one must first set the aspect ratio # and know the working diameter so that you can determine the speeds of each stand can set in the Kontistraße before the start of rolling.

The aspect ratio # is the ratio of the rod length the stitch to the length of the bar before the stitch.

# = L1 = L2 = L3 etc. L0 L1 L2 You know the aspect ratio of the individual stitches, you also know the cross-sectional area after each stitch F1, F2, F3 etc., if you know the piercing cross-section F0 in front of frame 1.

The working roller diameter is only identical for flat cross-sections with the roller outside diameter. For all types of profiles, the working diameter is always smaller than the roller diameter. For normal profiles such as round, square, diamond and oval one knows empirically determined factors around the working diameter to be specified sufficiently precisely.

No values are known for asymmetrical profiles, neither mathematically still empirically tested.

The object of this elaboration is to develop a process after which it is precisely impossible to determine the aspect ratio and the working diameter.

The drawing shows schematically a pair of rollers n, it front and rear arranged photocells The pair of rollers can be connected to a drive within the continuous line or can also be connected to a separate drive.

According to the drawing, the rolling process takes place in the direction of the arrow.

The following characters are used to describe the procedure: Fo = cross-sectional area in front of the 1st scaffold F1 = cross-sectional area after the 1st scaffold F2 = cross-sectional area after the 2nd scaffold, etc.

Ve1 = infeed speed in front of the 1st stand Va1 = outfeed speed after the 1st stand Ve2 = entry speed before the 2nd stand Va2 = exit speed after the 2nd scaffolding, etc.

Note: Val = Ve2, Va2 = Ve3 etc.

# = Aspect ratio # = 3.14 D = roll diameter in mm DA = working diameter in nim n1 = speed of the 1st stand n2 = speed of the 2. scaffolding, etc.

Z1 - Z4 = photo cell 1 - 4 L1 = L2 = distance between photo cells tl = running time in L1 t2 = running time in L2 Example: The following are given: D = roller diameter in mm L1 + L2 = nim n = roller speed = U / niin.

A sample billet with a known cross-sectional area F0 becomes Ticked off F1 and F2 do not react when illuminated. Not until the end of the stick If you leave F1, time measurement begins while the stick is on L1 comes from F2 to F2 This is how t1 is obtained. If we now calculate t1 nian Vel.

With the help of electronic devices, nlan Vel can be read immediately.

After the deformation, the profile bar touches F3 and comes to F4. After the pair of rollers, the time measurement starts immediately when you select F3 and n. measures the running time from F3 to F4. How to get Val.

The ratio of Val to Vel gives the aspect ratio Ä divided nian F0 by #, we get F1.

Compares ntan Val with the peripheral speed of the rollers according to the formula: D # # # n V = 60 so you will find a difference, namely is Val less than V.

This is because Val by the as yet unknown working diameter arises. Since #, n and Val are known, the formula is set according to DA uni: Va1 # 60 DA = # # n You have the working diameter on the downright coming into use If the roller is determined, D minus DA is a measure of all future roller diameters must be deducted in order to calculate the required speed.

You now know the elongation and thus the corresponding cross-sectional area and the working diameter, nlan can be based on the continuity principle F1 # Va1 = F2 # Va2 = F3 # Va3 etc. move, un @ the roll speeds of all stands to be determined. The gear stages are of course determined by the engine speed to consider. It is suggested the speed of the last stand and set all other speeds backwards.

It is up to the miller to determine the calculated speeds to correct that there is a slight pull from roller pair to roller pair, uni to make sure that pressure is avoided

Claims (1)

Claims for protection 1. Procedure for determining the elongation and the working roll diameter in continuous profile rolling mills, characterized in, that one with the height of photocell pairs in front of and behind the scaffolding the inlet or the discharge speed measures and compares and thus the elongation and the reduced Cross-section is obtained and by comparing the measured discharge speed with the calculated peripheral speed receives the working diameter.