RU2712965C1 - Method of producing circular ignition cartridges - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to production of construction-mounting and small-caliber round ignition chucks. Method for production of annular ignition cartridges includes operations of dosing and pressing of dry ignition composition in sleeves with inner spherical bulge at bottom with diameter of 0.5–0.9 of inner diameter of bottom part of case and angle of inclination of tangent at intersection point of hemisphere with plane of bottom is more than angle of natural slope, which characterizes flotation of igniting composition. Uniform distribution of igniting compound in annular clearance of cartridge is provided by vibration action on sleeves with doses of igniting composition placed in them. Compaction ignition compound in sleeves is performed by puncheons having on end surface spherical cavity commensurate with inner spherical bulge at bottom part of sleeve.

EFFECT: technical result consists in improvement of quality of cartridges by improving distribution of dry ignition composition in annular gap.

1 cl, 1 dwg

Description

The invention relates to the field of manufacture of construction and small-caliber annular ignition cartridges.

In the process of manufacturing annular ignition cartridges, the operation of placing the igniter composition in the annular gap between the bottom and the muzzle of the sleeve is performed. The reliability of operation of the cartridge from the striker of the weapon and the characteristics of the shot depend on the quality of the operation.

A known method for the manufacture of ring-shaped cartridges (patent US 5204488, F42B 33/24 from 04/20/1993), in which a paste-like igniter composition is rubbed into the annular gap with a bevel with a beveled bevel and then dried.

In the method according to the patent RU 2640436, F42B 5/02, F42B 5/32 dated 05/25/2017, hemispherical bullet sleeves, after dosing the igniter composition and celluloid varnish therein, are vibrated and dried to uniformly fill the annular gap.

The disadvantage of these methods is the need to perform the drying operation, which leads to a lengthening of the production cycle of the manufacture of annular ignition cartridges.

A known method of manufacturing building and mounting cartridges of annular ignition (patent RU 2096730 F42B 5/32, B25C 1/16 from 04/04/1995), in which in the center of the inner surface of the bottom of the sleeve made spherical convexity with a diameter of 0.5-0.9 from the inner diameter of the bottom of the sleeve and the angle of inclination of the tangent at the intersection of the hemisphere with the bottom plane is greater than the angle of repose, facilitating the movement of the igniter composition in the annular gap during batching and pressing operations.

This method is adopted as a prototype.

The disadvantage of this method is the possibility of misfires due to the uneven placement of the igniter in the annular gap.

The technical problem to be solved by the alleged invention is aimed at improving the quality of cartridges by improving the distribution of dry ignition composition in the annular gap with group technology for the production of construction and small-caliber cartridges.

The problem is achieved by the fact that in the group method of manufacturing ring-shaped cartridges for the operation of dispensing and pressing a dry igniter composition in sleeves with an internal spherical bulge with a diameter of 0.5-0.9 from the inner diameter of the sleeve and the angle of inclination of the tangent at the intersection of the hemisphere with the bottom plane is greater than the angle of repose, the sleeves with the doses of the ignition composition placed in them are subjected to a vibration effect, and the ignition composition in the sleeves is pressed by a punch E having a spherical surface on an end cavity commensurate spherical bulge on the inner surface of the bottom of the sleeve.

In FIG. 1 shows a sleeve 1 with a spherical bulge 2 on the bottom and an annular gap 3. At the end of the pressing punch 4 there is a cavity 5 of a spherical shape commensurate with the spherical bulge 2 on the inner surface of the bottom of the sleeve 1. The position of the ignition composition 6 is shown after pressing.

The igniter composition 6 in the sleeve 1 after the dosing operation is uneven. During vibration exposure, the igniter composition 6 evenly fills the annular gap 3. During subsequent pressing, the igniter composition 6 is evenly sealed with the compression punch 4 in the annular gap 3 of the sleeve 1. The spherical cavity 5 of the compression punch 4 protects the igniter composition 6 in the sleeve 1 above the spherical convexity from overconsolidation. The dose of igniter composition 6 is selected from the conditions for the formation of a powerful ignition of gunpowder without destroying the sleeve 1.

Thus, the proposed method for the production of ring ignition cartridges allows for the group method of dosing and pressing a dry igniter composition to eliminate misfires and improve the quality of ring ignition cartridges.

The proposed method for the manufacture of ring-shaped cartridges is used in production, which allows us to consider the proposed technical solution as meeting the criteria of the invention “industrial applicability” and “novelty”.

Sources of information

1. Patent US 5204488, F42B 33/24 from 20. 04. 1993 g.

2. Patent RU 2640436, F42B 5/02, F42B 5/32 dated 05/25/2017.

3. Patent RU 2096730, F42B 5/32, B25C 1/16 dated 04/04/1995.

Claims (1)

A method of manufacturing annular ignition cartridges comprising dosing and pressing a dry igniter composition in sleeves with an internal spherical bulge on the bottom with a diameter of 0.5-0.9 from the inner diameter of the bottom of the liner and the angle of inclination of the tangent at the intersection of the hemisphere with the bottom plane is greater than the natural angle slope characterizing the flowability of the igniter composition, characterized in that a uniform distribution of the ignition composition in the annular gap of the liner is provided by irradiation of the sleeves with the doses of the ignition composition placed in them, and the pressing of the ignition composition in the sleeves is carried out by punches having a spherical cavity on the end surface that is commensurate with the internal spherical bulge on the bottom of the sleeve.

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