RU2094746C1 - Projectile - Google Patents

Abstract

FIELD: ammunition. SUBSTANCE: projectile has which connects opening body and is placed between diaphragm and nose part. Duct has holes and guides on outer side. It also has hole communicating with space of ejection charge and hitting elements are located between guides which are funnel-shaped. EFFECT: facilitated manufacture, enhanced operational capabilities. 1 cl, 3 dwg

Description

 The invention relates to a means for hitting a distributed target in space by volume and area and can be used in combat both in the field and in terrain of different terrain, and in combat operations with urban weapons saturated with fire weapons, when firing points located in depth and height of the area of offensive military operations. The predominant use of the projectile is intended for barrels, but can also be used in combination with jet engines.

 As barrel weapons can be used as a smoothbore barrel, and rifled.

 A known projectile containing a housing, a fuse with a detonator, an explosive substance enclosed in a housing with a warhead in which the fuse is located (BES, t. 23, p. 629, 1976). Thus, high-explosive fragmentation shells are arranged that hit the target after interacting with an obstacle due to the destruction of the hull with the formation of fragments or damage due to gas pressure and their interaction with the surrounding masses of the environment.

Such shells have the following disadvantages:
to hit the target, it is necessary to conduct targeted shooting, which reduces the effectiveness of hitting the target and puts the gun with the servant at a disadvantage because of the possibility of defeat before suppressing the target;
low effectiveness of defeating distributed targets that lead active resistance and have shelter.

 A known projectile comprising a housing, a remote fuse, which contains a detonator with an actuator and a moderator, made, for example, in the form of a tube with a flammable mass, a blast charge with a diaphragm located in the bottom of the housing, and a filler in the form of bullets (US patent N 3954060 , CL F 42 B 13/50, 1976).

The disadvantages of such a shell should be considered
low efficiency of its use in terrain with rough terrain, in urban conditions;
low efficiency in the field, as the solid angle, which faces the area with a distributed target, is small compared with the full solid angle 4;
local defeat of distributed targets, which are placed under the site of the detonation of the projectile and contribute to the proliferation of filler in the form of bullets, moreover, in the zone of preservation of the lethal force and the angle of destruction relative to the terrain.

 It should be noted that the moderator can be made in various ways: in the form of an electric blast with a delay, a mechanical moderator, therefore, in the future, the technical solution does not concern the execution of both a fuse and a moderator, which can be located both in the head part and in the tail part shell. Fuses and moderators are described in the literature (TSB, t. 5, p. 12) and upon further consideration, these devices will be depicted according to one of the schemes without revealing the device of the fuses and moderators themselves, as in well-known shells.

The aim of the invention is to remedy these disadvantages:
improving the effectiveness of defeating distributed targets when used on rough terrain, in urban environments;
increasing the effectiveness of the impact on the distribution of targets when they are distributed in an extended volume along the depth of fire contact and placed at different levels in height;
improving the impact on distributed targets by reducing the requirements for aiming the barrel and increasing rate of fire due to this;
increasing the effectiveness of the impact on distributed active targets due to the directed exposure to the filler in the form of bullets, and at the same time in time, which does not allow the use of shelter, since the impact is carried out simultaneously throughout the volume with the destruction of targets throughout the entire depth of the shot.

 The goal is achieved in that between the head part and the diaphragm there is a hollow and centrally located channel connected to them with radial holes and funnel-shaped annular guides on the outside of the channel, the cavity between which is filled with filler, while the diaphragm is provided with holes that communicate the cavity of the expelling charge with the internal cavity channel, and the guides are made in shape with a decrease in the angle to their edges relative to the axis of the projectile, and the guides themselves are made in the form of a helix.

 In FIG. 1 shows a projectile, axial section; in FIG. 2 moment of disclosure of the housing by separating its head part; in FIG. 3 is an end view with velocities that each component of the filler has in the form of a ball or a bullet.

 The projectile contains a housing 1 with a head part 2, in which a fuse with an actuator is located, a moderator 3 in the form of a tube with a combustible mass, with which it is filled. The tube 3 connects the fuse in the head part 2 with the knockout charge 4. The tube 3 connects the head part 2 and the diaphragm 5, which separates the zone of the filler 6 from the knockout charge 4. On the surface of the channel 7, which is aligned with the tube 3 and is also connected to the head part 2 and a diaphragm, guides 8 are arranged, which are made in the form of funnels with a decrease in the angle between the tangent to the surface of the guide funnel 8 and the axis of the projectile. The guides themselves can be made in the form of separate funnels, as well as in the form of a single screw system, but in the latter case, it is necessary that jumpers are installed along the axis between the funnels. Between the tube 3 and the channel 7, holes 9 are made that communicate the cavity of the expelling charge 4 with the internal cavity of the channel 7 and through the holes 10 with the cavity between the guides 8. As indicated above, the fuse device in the head part 2 with an actuator and a detonator is shown, and a moderator shown in the form of a tube 3. This is due to the fact that these elements can be made in different ways and differently arranged. The fuse may be located in the bottom of the housing 1, and the moderator 3 may be electric or other type with its placement in the bottom. In all cases, channel 7 will remain and then the holes 9 can be replaced with one hole in the center. Therefore, it should be considered that one of the possible fuse arrangements is presented, which is the simplest and most often used, however, it should be borne in mind that this is not the only arrangement of the known elements of the design of the projectile.

 The projectile operates as follows.

After the projectile leaves the barrel, it fires with a time delay after the detonator fires immediately after the shot. The moderator in the tube 3 is ignited and its burning time determines the time delay after which the blow-out charge 4 explodes. The diaphragm 5 receives the pressure of the powder gases and the housing 1 opens, as shown in FIG. 2. In this case, the cavities between the guides 8 are opened and the filler in the form of balls flies out under the influence of the pressure of the powder gases: which act on the filler through holes 9 and 10. At the same time, the centrifugal force also acts if the projectile is fired from a rifled gun. After the housing 1 is fully opened, a dense field of filler with conical surfaces will be formed in front of it, moreover, with a faster velocity than the projectile moved, due to the influence of powder gases on the filler in the form of balls or bullets. Reducing the angle allows to obtain a smaller scatter of each element of the filler during its movement, i.e., it decreases V _N , and this provides an increase in the density of each element of the filler in the volume, and the movement occurs with rotation taking into account air resistance, which allows hitting targets and behind cover.

 Explanations for the technical solution.

1. A projectile is shown which is used in a threaded gun; therefore, guide belts are shown in FIG. 1. When using a smooth-bore barrel or a rocket launcher, the V _T component will be absent and the movement of each filler element will form cones from each guide field.

 2. The exit angles of the filler elements may be different for the formation of different distribution fields of the filler elements.

 3. The projectile can also be used in mortars, air bombs with the same effect on distributed targets in space.

 4. During the movement of each element of the filler, it will affect any target that is located on its trajectory, and since its trajectory is curved during rotation, a volumetric lesion zone with a plane will be obtained, which will be determined by the angles of each guide and the speed of angular rotation (if the projectile is fired) from a rifled gun).

 5. The projectile can also be used in over-caliber weapons and be portable, which will replace dozens of automatic weapons in their effectiveness.

 6. One should expect an increased effectiveness of defeating distributed targets on the ground when using a technical solution in air bombs, since in this case the area of destruction will be hundreds of times larger than the area of destruction when using an air bomb with equal masses.

Thus, the following results are achieved:
increased impact due to the density of the filler;
increase in efficiency due to the directed influence on the target field of the filler;
increased efficiency by reducing the requirements for the direction of the shot and increasing the rate of fire;
increased efficiency due to the impact on the directed volume of the shot.

Claims (2)

 1. A projectile comprising a housing with a head part, a fuse with an actuator including a detonator and a moderator, a kick charge, a diaphragm with an axial hole located between the kick charge and the body cavity, an axial channel connecting the head part with the kick charge through an axial hole in the diaphragm guides installed in the cavity between the walls of the housing and the axial channel, and striking elements located in the cavity of the housing between the guides, characterized in that each of the guides is made funnel ase shape, wherein the axial duct provided with radial openings.  2. The projectile according to claim 1, characterized in that the generatrix of the surface of each of the guides is made curved, while the angle between the tangent to the surface of the guide and the axis of the projectile at its narrow part is larger than the same angle at its wide part.

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