RU2089841C1 - Method of dismounting of bullets - Google Patents

Abstract

FIELD: manufacture of small arms ammunition, in particular, dismounting of bullets with an empty envelope nose and slug with a long ogive. SUBSTANCE: incomplete cut of the envelope nose and its simultaneous crushing to the dimensions equal to the diameter of the smaller hole are accomplished in a stepped die. Then the envelope is shifted from the slug ogive. The envelope is removed from the slug. The slug is wiped off. EFFECT: facilitated procedure. 3 dwg

Description

 The invention relates to the manufacture of small arms cartridges, in particular to the dismantling of bullets.

 The aim of the invention is the exclusion of press fitting the spout on the animated part of the core when dismantling a bullet with an empty shell spout and a core with a long animated part.

 This goal is achieved by the fact that in the method of dismantling the bullet, including notching the shell nose in the step matrix, tearing off the shell nose and moving the shell from the live part of the core, removing the shell from the core and wiping the core, simultaneously crushing the nose in the step matrix, it is crushed to dimensions equal to the diameter of the small hole.

 Dismantling a bullet is carried out in three operations and realize it, for example, on a 3-operation horizontal press.

 In FIG. 1 shows the first position of the press; in FIG. 2 second position of the press; in FIG. 3 third position of the press.

 The claimed method is carried out as follows.

 A bullet 3 is fed into the step matrix 1 by punch 2, centered over a large diameter, and in the smaller diameter, the shell nose is cut and the shell nose is crushed by the ejector 4 to a diameter equal to the diameter of the smaller hole, which significantly reduces the interface between the shell nose and the core come to life due to reducing the size of the shell nose along the horizontal axis while filling the shell with free space in the small diameter of the matrix. The shell, as it were, swells, as a result of which it moves away from the core. In the reverse stroke of the punch 2, the ejectors 4 push the bullet 3 from the matrix 1 into the transport element (not shown in the drawing), which serves the bullet 2 to the next position.

 At the second position, a bullet is fed into the step matrix 5 by the punch 6 and the shell nose is torn off and the shell is shifted from the animated part of the core to the cylindrical one. During the reverse stroke of the punch 6, the cutter nose of the shell together with the bullet from the matrix 5 is pushed out by the ejector 7 into the transport element, to which the bullet is fed to the next position. When the ejector 7 returns to its original position, the cut nose falls under its own weight and falls to the next position without the nose. The shift of the shell from the living part of the core to the cylindrical eliminates the possibility of sticking of the shell parts to the core in the next operation.

 At the third position, a bullet is fed into the matrix 8 by the punch 9, while the shell abuts against the edge of the matrix 8, the core is pushed out of the shell 9, and the shell with a lead shirt located inside it is put on the punch 9. When the punch 9 is reversed, the shell is removed from it by shooting 10. The core is pushed out of the matrix 8 when the next bullet is fed.

Claims (1)

 A method for dismantling a bullet, including notching the shell nose in a stepwise matrix, tearing off the shell nose and moving the shell from the ogive part of the core, removing the shell from the core and wiping the core, characterized in that, in order to prevent the nozzle from being pressed into the live part of the core when removing the bullet with an empty the nose of the shell with the core with a long animated part, in it simultaneously with the notch of the nose in the step matrix, it is crushed to a size equal to the diameter of the small hole.

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