PL187181B1 - Linear charge for explosion-forming of shells - Google Patents

Abstract

1. Linear charge for explosive forming of projectiles is equipped with a shell, in the form of a pipe closed with lids and filled with an explosive material, a detonator and cumulative inserts, located along the circumference of the shell. Characterized in that: The shell (2) has the form of a polyhedral pipe, while the number of its walls is not smaller than 6. It consists of connected linear elements (1) in the form of sections of a hollow cylinder. The external and internal curvature radii of the linear element (1) are different. The ratio of the linear element (1) thickness (H) at the edges to the charge radius (R) is within the range between 0.02 and 0.05. The ratio of the linear element (1) thickness (G) in the centre to the charge radius (R) is within the range between 0.03 and 0.06. The ratio of the linear element (1) depth (L) to the charge radius (R) is within the range between 0.05 and 0.10. The shell (2) has notches (6) at its circumference, and the distance between the notches is approximately equal to the width of a linear element.

Description

The invention relates to a linear charge for explosively forming projectiles. It can be used as a combat element of a missile used to destroy lightly armored targets such as airplanes, helicopters or wheeled vehicles.

The anti-tank fragmentation and demolition warhead described in Polish patent description No. 144 611 is known. The warhead consists of a two-part shell filled with explosive material. The front part of the shell is conical and the rear part is round tube. Both parts of the shell are connected to each other. The rear part of the shell has accumulative inserts on the perimeter. There is a fuse at the bottom of the back of the shell. A similar structure is presented in the Polish patent description No. 165 245 with a splinter head grenade. In this head, on the rear part of the shell, there are embossings on the perimeter that act as cumulative inserts.

The essence of the invention lies in the fact that the charge envelope is formed by linear elements in the shape of hollow cylinder sections connected to each other. The shell has the shape of a polyhedral tube with the number of walls not less than 6. The radii of curvature of the linear element on the outside and inside are different. The ratio of the thickness of the line element at the edges to the radius of the charge ranges from 0.02 to 0.05, the ratio of the thickness of the line element in the center to the radius of the charge ranges from 0.03 to 0.06, and the ratio of the depth of the line element to the charge radius ranges from 0.05 to 0.10. The shell is circumferentially scored and the distance between the notches approximately equals the width of the linear element. The shell can also be a multi-walled tube, each wall of which has the shape of a linear element and the shell has cuts along the edges of the walls.

The invention is illustrated by an embodiment in the drawing, Fig. 1 is a view of a linear element, Fig. 2 is a view of the shell with cuts, Fig. 3 is an axial section of the cargo, and Fig. 4 is a cross section of the cargo.

The cargo is provided with a shell 2 which is shaped like a metal tube, preferably ARMCO iron. The tube has 6 walls and can be made of connected (welded or welded) linear elements 1 or can be pulled out. In any event, however, the walls of the tube are the same and are shaped like hollow cylindrical sections. The outer and inner curves of the slices have different radii. The dimensions of the rope elements 1 are such that

187 181 the ratio of the thickness H of the line element 1 at the edges to the charge radius R ranges from 0.02 to 0.05, the ratio of the thickness G of the line element 1 in the middle to the radius of the charge ranges from 0.03 to 0.06 and the ratio of the depth L of the line element 1 to the radius R of the charge ranges from 0.05 to 0.10. These dimensions are determined depending on the size of the carrier rocket with the help of a computer program. The shell 2 has cuts 6 along its circumference. The distance between the notches 6 is approximately equal to the width of the linear element 1. The shell 2 is filled with high-energy explosive 7 and closed with caps 4, 5. The rear cap 5 has a threaded hole into which the fuse 8 is screwed. When the shell 2 is a multi-walled tube with the same walls, it has notches 9 along the edges of the walls. After the rocket is aimed at the target, the explosive 8 detonates and the shell 2 breaks into pieces along the edges of the walls and cuts 6. The pieces act as inserts 3, from which high-energy projectiles with an initial velocity of about 2.5 km / s are explosively formed. in the direction perpendicular to the axis of the load. The number of projectiles depends on the dimensions and number of linear elements 1.

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187 181

Fig. 4

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Publishing Department of the UP RP. Circulation of 50 copies

Price PLN 2.00.

Claims (2)

Patent claims 1. Linear charge for explosive fortification of missiles provided with a shell in the form of a tube closed with bottoms, filled with explosive material, a fuse and accumulative liners located on the circumference of the shell, characterized in that the shell (2) has the shape of a polyhedral tube with the number of walls not less than 6 and it consists of linear elements (1) being sections of a hollow cylinder connected with each other, and the curvature radii of the linear element (1) outside and inside are different, and the ratio of the thickness (H) of the linear element (1) at the edges to the radius of the load (R) is within the range from 0.02 to 0.05, the ratio of the thickness (G) of the linear element (1) in the center to the radius of the charge (R) is within the range of 0.03 to 0.06, and the ratio of the depth (L) of the linear element ( 1) to the radius (R) of the charge is in the range from 0.05 to 0.10 and moreover, the shell (2) has incisions (6) on its circumference, and the distance between the notches is approximately equal to the width of the linear element. 2. A cargo according to claim 1, characterized in that the shell (2) is a multi-walled tube, each wall of which has the shape of a linear element (1) and cuts (9) are made along the edges of the shell (2) walls.