DE1777043C3 - Tool calibration for cold pilger mills - Google Patents

Description

The invention relates to a tool calibration 30 Cold pilger mills, in which the curve tool is used to calibrate the rolling mandrel, the course of the settlement of the caliber base of the outer d. H. of the inner tool, thereby adapted, Tool over the entire working length a para- that the fixed course of the calibration and the inner tool is at least partially tion of the inner tool of the Wandreduktionsver parabolic shape having. 35 barrel was slammed, making up for equal

The invention assumes that there are different calibrated finished pipe outer diameters, in cold pilger mills in which the rangen resulted for the outer tool, the curve of the development of the caliber margin enables the invention to provide a specific calibration of the outer tool over the entire working length of the outer tool A large number of these adapted a parabola is to use internal tools in which ♦ <> internal tools are to be provided. So far, since the working length from a parabolic part use of different caliber rollers composed of economic and a linear conical part had to be limited economically. Such inner tools require care- compromise to the effect concluded that fältige vote, in particular were linear, the wall thicknesses of the finished conical tubes only in small part to see not only the curve of the 45 boundaries va ^r 'ieit. This small external tool, but also riieren on the wall thickness, erft.n'rte already a relatively large size of the finished pipe to be produced. In spite of this, side frees -... iif% im allow the well-known calibration for the linear, conical working area of the inrang '. ·:. ; inde to be able to take up the disadvantages of one on the whole through «Ji. According to the calibration, the working length of the simple conical inner tool 50 size of the iritcn-free grinding and thus the width cannot be excluded, which consist in the fact that the pipe at the end of the working length of the outer carcass is technically a serious rolling technique that is kept so small that the danger is given by the power limitation, because the longitudinal cracks in the finished pipe of the material, which is only given in the area of the conical rolling mandrel with a simple rial deformation, the largest deformation of the linear conical part 55 The simple conical rolling mandrel occurs here in this respect May, in the remaining parts so worth mentioning, as it is in the Austrian patent, and that the inner tool is called a üci tool due to the different load over the writing 152 766 in connection with an outer working length, the calibration of which does not wear evenly apart from its working length s is subjected to the same mathematical function in section. Furthermore, it is noted that 60 bezug- follows as the calibration of the internal tool, Hch the interaction of the parabolic portion although this dependence in this form there of the inner tool with the outer tool a is not disclosed. By dividing the external change in the rolling conditions of a tool into areas with different linear treads, if with the same caliber of the external arem increase in their development, customer tools stubborn production of thick-walled tubes will rather be a 6 ₅ tan, that it is based on a coordination of the curve-deviating mandrel is to be used. These influences have a significant effect over the entire working area between oneself when rolling carbon quane tools and outer tools, obviously not quality tubes on cold pilger mills with which. The present invention contradicts this.

The figure explains the invention using an example. In this means:

DL = largest clear diameter of the roller caliber,

DF = smallest clear diameter of the Waizenkaliber,

dh = largest mandrel diameter, dF = smallest mandrel diameter, X - development of the working caliber, Y = curve of the roller caliber, Z = Kurye of the dome.

1 sheet of drawings

Claims (2)

knew calibration of the inner tool and claims: adversely affect; their, profitability. The object of the invention is to provide this rolling technology 1. Werkzeugkalibrierunfi for Kaltpilgerwalz- see inadequacies, especially one through works, in which the course of the curve of the 5 this conditioned excessive broadening in the close coni the caliber base of the outer tool to avoid the area of the inner tool ges is a parabola over the entire working length and a tool reduction to create it and the inner tool at least partially allows Pa-, with the same Luppen- and finished tube aurabel shape has, as a result, the diameter of the shell and the finished tube wall I do not know that the inner tool can "vary over the io thicknesses, without the tool scale total working length a corresponding to the outer tool brierung for different diameters available has a parabolic course. having to change tools. 2 tool calibration according to claim 1, according to the invention it is therefore proposed that characterized in that the at the beginning of the Innenwerteeug over the entire working length Arbestskaliber on the outlet side to the parabolic 15 corresponding to the outer tool of the inner tool created tangent that has a visible course. ..... Generating of the in the area of the smoothing caliber Jie- It will result in a tool calibrating Cylinder with the finished pipe diameter is sufficient, with the outer diameter remaining the same is. from the shell and the finished pipe, the rolling of Lup- 20 pen of different inside diameters to finished pipes of different inside diameters, without that the wall reduction curve changes, d. H. without changing the outer tool calibration have to. The conversion to other inside diameters s5 ser is thus by simply exchanging the inner tool possible in the shortest possible time, and it is ensured that the performance of the cold pilger mill can be fully extended for each internal tool.