RU2068981C1 - Propelling charge case of mortar bomb - Google Patents

Abstract

FIELD: mortar ammunition. SUBSTANCE: the case has a wall and a bottom that is connected to the wall by equidimensional ribs uniformly arranged around the internal edges and ending at the level of the middle of the annular recess of the mortar bomb cartridge container in an assembled mortar bomb. EFFECT: improved design. 1 dwg

Description

 The invention relates to the field of military equipment, namely to ammunition for mortars.

 Currently, the army is armed with the main charges (tail cartridges) for mortar rounds (finally equipped mines) in paper shells. The design of such a charge is described, for example, in the book "82-mm mortars arr. 1937, 1941 and 1943 Service manual", Military Publishing, Moscow, 1947, pages 77-79 prototype. The standard sleeve according to the prototype consists of a two-layer paper wall and a brass bottom, interconnected using a paper bottom wad. The main charge is inserted into the tube stabilizer mines. In order to prevent the main charge sleeve from falling out of the stabilizer tube during firing, there is an annular undercut in the tube, into which the brass wall of the bottom of the main charge sleeve is pressed during the shot.

 The presence of an annular groove inside the tube of the mine stabilizer as a means of fixing the sleeve determines the specific requirements for the design of the latter. An annular groove should prevent the sleeve from falling out as a whole, but along with this is the cause of its destruction, i.e. does not prevent in principle the loss of the bottom of the sleeve. In the prototype, the prevention of the destruction of the sleeve at the interface with the ring undercut of the mine stabilizer tube is achieved by the fact that the brass wall of the bottom and the paper bottom wad, in addition to their direct functions, reinforce the paper side wall, overlapping the height of the ring undercut. The need to overlap the junction of the side wall with the annular undercut significantly reduces the capacity of the sleeve, which is one of its disadvantages.

 The aim of the invention is to prevent destruction of the liner during the shot while maintaining its capacity.

 This goal is achieved by the fact that the bottom of the sleeve is connected uniformly along the inner perimeter of the wall, is equal and integrally with the sleeve ribs extending from the base and ending on the side wall of the sleeve at the middle of the annular undercut of the mine stabilizer tube in the assembled shot.

 The drawing shows the sleeve of the main charge of the mortar shot, consisting of the side wall 1 and the bottom 2. The bottom of the sleeve 2 is connected to the wall 1 by ribs 3 extending from the bottom 2 and ending on the side wall of the sleeve 1 at the middle of the annular groove 4 of the stabilizer tube 5 mines 6 The wall of the sleeve 1, the bottom of the sleeve 2 and the ribs 3 form a single unit.

 In the process of firing, the gases generated during the burning of the powder of the main charge press the side wall 1 with ribs 3 into the annular recess 4, thereby preventing the sleeve from falling out of the stabilizer tube 5 of the mine 6. Detachment or cutting of the bottom of the sleeve 2 along the edge of the annular recess 4 as a result of a decrease in thickness the ribs 3 prevent the side wall. For uniform load distribution, the ribs 3 are made equal and evenly distributed along the perimeter of the side wall 1.

 In addition, the tops of the ribs 3 of the liner can serve as a stop for the diaphragm, which separates the additional igniter from the powder of the main charge with a three-link ignition scheme (capsule igniter, additional igniter, powder of the main charge).

 The ribs 3 end at the level of the middle of the annular recess 4, and not lower to ensure the reliability of jamming of the side wall in the annular recess and not higher to ensure maximum capacity of the powder and the sleeve.

 The proposed technical solution has been tested in relation to the main shell sleeves of an 82-mm mortar shot obtained by cold stamping from aluminum with optimization of the geometric dimensions of the ribs, wall thickness, capacity, mass of the additional igniter while ensuring the mechanical strength of the shell and obtaining the required ballistic characteristics. The test results for the technical solution are positive.

Claims (1)

 The shell of the main charge of the mortar shot, consisting of a side wall and a bottom, characterized in that the bottom of the sleeve is connected to the wall equally and uniformly along the inner perimeter of the wall, comprising ribs extending from the bottom and ending at the level of the middle of the annular undercut of the mine stabilizer tube in the assembled shot.