RU2108186C1 - Method for shaping flat ring blanks - Google Patents

Abstract

FIELD: plastic metal working, namely manufacture of flat ring blanks of materials that may be subjected to cold plastic deformation. SUBSTANCE: end portions of initial tubular blank are expanded and reduced in die sets for cold forming cone semifinished product. Expanding and reducing operations are performed alternatively. Then said cone semifinished product is deformed to flat ring. EFFECT: possibility of making flat ring of predetermined dimensions practically without waste. 5 dwg

Description

 The invention relates to the processing of metals by pressure, in particular to cold stamping, and can be used in the shaping of various ring parts from materials capable of plastic deformation in the cold state.

 Known methods for producing flat annular blanks by methods of cutting from sheet material on roller scissors, thermal cutting, stamping, cutting on metal cutting machines [1].

 These methods make it possible to obtain ring blanks with a very low utilization of materials.

 A known method of forming flat annular billets, in which a conical semi-finished product is formed from the original tubular billet by distributing and crimping its ends in dies for cold stamping, which is then deformed into a flat ring [2].

 The possibilities of the pipe distribution operation are limited by the formation of cracks on the edge with their subsequent propagation to the entire deformation zone, and under the action of tensile stresses, the wall thickness decreases.

 The possibilities of the crimping operation are limited by the loss of stability of the workpiece in the axial direction and the loss of stability in the circumferential direction (the appearance of folds on the conical part). When crimping pipes under the action of compressive stresses, the wall thickness of the workpiece increases.

 The optimal condition for obtaining high-quality flat workpieces with a maximum field is to preserve the wall thickness or its slight changes.

 In the aforementioned known technical solution [2], the crimping and distributing operations of the ends of the tubular billet are combined, as a result of which difficulties arise in adjusting their size and, as a result, difficulties in obtaining a conical semi-finished product with exact dimensions, even when installing stops that limit the values changes during crimping or distribution.

 The experiments show that the actual obtained dimensions of the conical semi-finished product when combining crimping and distribution operations are affected by the accuracy of the diametric and linear dimensions of the tube stock, the condition of the edges and end surfaces, the accuracy of the workpiece in the stamp, the surface condition of the punch and die, lubrication and its uniformity along the contour, uniformity of the mechanical properties of the material, etc.

 These factors have a particularly strong effect when shaping relatively thin-walled and dimensional nozzles obtained from plastic sheet material, for example, soft aluminum and copper.

 The technical problem to which the claimed invention is directed is to reduce labor costs in obtaining a conical semi-finished product with exact dimensions.

 To solve the problem in the known method of forming flat annular blanks, in which a conical semi-finished product is formed from the original tubular blank by distributing and crimping its ends in cold stamping dies, which are then deformed into a flat ring, the distribution and crimping of the blank ends are performed alternately.

 The invention is illustrated by graphic materials, where in FIG. 1, 2, 3 schematically show the steps of forming flat annular blanks; in FIG. 4, 5 are diagrams of the formation of a conical semi-finished product of a flat ring, respectively, with an exact outer and inner diameter.

 The method is as follows.

 From the tubular billet 1 in the stamp for cold stamping, including the punch 2 and the die 3, alternately crimp (Fig. 1) and distribute (Fig. 2) the ends of the billet to obtain a conical semi-finished product 4, from which a flat ring 5 is then formed.

To achieve the maximum value of the field width A (Fig. 3), the value of B (Fig. 1) or C (Fig. 1) is taken as the maximum allowable, respectively, for distribution and crimping not at right angles, but at an angle of 45 ^o , and further the formation of a flat ring according to the scheme (Fig. 3), adjusting successively the values of deformation with tension or compression of the fibers of the material, while if you want to get more accurate the inner diameter of the annular blank, the last operation is performed according to the scheme shown in Fig. 4, and if it is necessary to obtain the exact inner diameter of the workpiece, then the conical semi-finished product is shaped according to the scheme shown in FIG. 5.

Claims (1)

 A method of forming flat annular blanks, in which a conical semi-finished product is formed from the original tubular blank by distributing and crimping its ends in cold stamping dies, which are deformed into a flat ring, characterized in that the distribution and crimping of the blank ends are performed alternately.

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