RU2149344C1 - Shell head - Google Patents

Abstract

FIELD: ammunition. SUBSTANCE: head uses a controlled blasting device and a body with grooves with ducts with a screw thread and chamber for the first injurious element located near the bursting charge, the subsequent injurious elements have a loose coupling with the duct in its axis and are fixed under the same angle as the first injurious element for separation after ejection from the duct, the ejection charge is made in the form of sections with retarders between them; the sections are located in the zone of ducts, and the retarders - between the ducts. EFFECT: created continuous field of hitting by injurious elements and enhanced range of their flight. 2 dwg

Description

 The technical solution relates to the defeat of the head of the projectile of distributed objects over the area or the defeat of a single target at its high speeds, when the targeted defeat of the target is complicated both by the technical properties of the defeat device and, if possible, maneuver at significant speeds of the target.

 The predominant use of the technical solution is the defeat of airborne objects that move in the zone of significant speeds and, as a rule, in formation. Such objects include aircraft with speeds exceeding the speed of sound when maneuvering and moving at altitudes of tens of kilometers, when anti-aircraft artillery is not able to hit a target. A technical solution can also be ground targets over a large area.

 In the future, the defeat of aircraft and missiles that have a speed higher than the speed of sound at the least affected altitudes will be considered: tens of kilometers above the earth's surface and at low altitudes up to 20 - 30 meters above the relief surface. From the practice of hitting flying targets at significant heights, the defeat of jet aircraft is known: the destruction of U2 in the 60s, the destruction of STELS in the conflict in the Balkans in 1999.

The disadvantages of such means of destruction of aircraft include:
the difficulty of pointing to get the rocket in contact with the aircraft, because the area of oncoming devices is small on the trajectory of the meeting. This requires high accuracy of aiming and tracking of all deviations of the object from the proposed path. This circumstance explains the defeat of the target only when several missiles of the complex are launched simultaneously. This was the case in both cases described.

 A technical solution is known when the head of the projectile has a moving knockout charge and a cartridge with channels in which the striking elements are located, and a destructible diaphragm is placed between the knockout charge and the cartridge (German patent N 209822, CL 72 D 17/01, 1906).

The disadvantages include:
- lack of effectiveness due to the uncertainty of the movement of the damaging elements after the destruction of the diaphragm,
- insignificant flight range of the striking elements, as the movement is carried out like a conventional fraction.

 A known projectile containing a shell, a guided explosive device (remote fuse), a knockout charge in the bottom and a bullet-shaped filler (US Pat. No. 3,954,060, class F 42 B 13/50, 1976). The closest analogue is the head of the projectile, known from the patent CH 660628 A5, F 42 B 13/50, 03/31/87.

 Known head part of the projectile contains a housing, knockout charge, placed along the axis of the head part, striking elements and a controlled blasting device.

The disadvantages of such technical solutions include:
- the uncertainty of the trajectories of each striking element,
- fast and short-range loss of lethal force, because the movement of each element corresponds to the movement of the fraction.

A technical solution of the same author is known, which contains a housing with channels placed obliquely to the axis, which are facing the direction of movement, an expelling charge along the axis that communicates with the channels, a controlled blasting device (patent 2094746, class F 42 B 12/32, 1997 year). The lesion area can be achieved in a significant size, but it must be borne in mind that each element is removed from the projectile’s trajectory, and if the time interval from the detonation of the detonating charge to the destruction of the target is significant, a zone will be formed along the axis without damaging elements, i.e. such a technical solution is effective over short distances when the target is visually observed,
- the lack of rotation of the damaging elements reduces their lethal force at small distances.

The purpose of the technical solution is to eliminate these drawbacks, namely:
- increasing the flight range of the striking elements,
- the creation of a continuous lesion field in the target area.

 The technical result is achieved by the fact that in the head part of the projectile containing the housing, the knockout charge placed along the axis of the head part, the striking elements and the controlled blasting device according to the invention, the channels are made in the body, communicating with the knockout charge, with a screw thread and a chamber for the first striking element located at the expelling charge, subsequent striking elements mate with the channel movably along its axis and are fixed at the same angle as the first striking element with the possibility of dividing after emergence from the channel. The expelling charge is made in the form of sections with moderators between them, and the sections are located in the zone of the channels, and moderators between the channels.

 In a preferred embodiment, in the head of the projectile, the striking elements are fixed using a protrusion and a groove with a common insert, which forms a common protrusion for the mating two adjacent elements, and springs are placed between the striking elements to separate them after leaving the channel.

 The drawings simplify the head of the projectile in the form of a structural diagram. Conventionally, a controllable blasting device is not shown, which, depending on the purpose of the warhead, can be performed in various ways: remotely controllable from a code signal, with a moderator for detonating after a certain time after the departure of the projectile (warhead). Various types of guided blasting devices are given by TSB, vol. 5, p. 12.

 In FIG. 1 is an axial section through the head, FIG. 2 - section along AA, rotated.

 The head part of the projectile comprises a housing 1 with a central channel 2, which is connected to a controlled blasting device 3 of various types depending on the purpose, and, in particular, it can be a moderator with a detonator. In the channel 2 there is a blow-out charge in the form of sections 4 and a moderator between them 5, which is presented in the form of holes 6 of small diameter. Sections 4 are connected through openings 6 in channel 2 by channels 7 to the striking elements 8, 9. Channel 7 has a screw thread and a chamber 10 for the striking element 8 so that it can cut into the helical groove of the channel 7, the striking element 9 has grooves 11 into which inserts 12, and springs 13 between elements 9 are included. The entire “package” abuts against element 8 and plug 14, which is calibrated by force and is held in channel 7, for example, by glue.

 Let the head part be placed on a rocket, which is able to bring it to the target. After a predetermined distance between the target and the head part, the blasting device 3 is activated, the section 4 ignites, which is adjacent to the device 3, the pressure rises and the package of elements 8, 9 with inserts 12 flies out of the channel 7, selecting the plug 14. After the elements 8, 9 take off they rotate because fixed at the corner by the insert 12, and under the action of the springs 13 the elements are separated. All elements of one row of channels 7, which are placed on the generatrix of the cone, themselves form a lesion in the form of a cone.

 The next row of channels 7 will work with the deceleration, which is determined by the hole 6 between sectors 4. The temporary delay should ensure the formation of a circle without damaging elements, which are determined by the angle of inclination of the channels 7 (the smaller the angle, the greater the time delay). The sequential actuation of sectors 4 makes it possible to obtain a practically continuous volume filled with striking elements 9, with each cone being truncated and overlapping with the next cone, which is first formed as with a vertex, and then will be transformed into a truncated one.

Explanation of the technical solution
1. The head part can be connected to a rocket engine to destroy distant objects both in height and in range. In this case, third-party control of the blasting device 3 is required, if the object is close, then the time from the start of movement is calculated after obtaining the coordinates of the detected target and it is enough to set the time interval for the blasting (like shrapnel, high-explosive shell). Prevention of the zero approach of the rocket and the target should provide the necessary amount of damage. To clarify, we take the angle of inclination of the channels 15 ^o , then at a distance of 300 meters we get the spread of damaging elements at a diameter of 160 meters, and all the space will be filled inside with other cones from channels 7 and everything that falls into this common cone will be hit. If this is an aircraft with a size of 20 meters along the spread of the wings, then many elements 9 will collide with it. The specified radius of defeat will capture an entire link of three! aircraft, the number of striking elements per unit area will depend only on the diameter of the hull 1, the diameter of the channel 2 and the diameter of the striking elements 9, which should not exceed the diameter of the rifle bullet. At the calculated diameter, you can get hundreds of striking elements per square meter. The length of the received section corresponds to the speed of sound, i.e. time period of one second. The accuracy is not great and does not require increased guidance accuracy, therefore, in many cases passive flight of the warhead without tracking tracking can be used. This is also true for a stationary target.

 2. The lethal force and the range of the striking elements will be determined by the height at which the striking elements are knocked out, the speed of the rocket itself and the oncoming speed of the object. In the general case, all these speeds will add up and can reach tens of sound speeds, which determines damage to an object with a multi-millimeter thickness of the skin of the target. It also allows you to use the warhead to destroy space objects.

 3. A possible option is the formation of a lesion field with the simultaneous effect of a knockout charge on all the damaging elements and on all channels. This option can be implemented if the channels are positioned at different angles, starting from a zero angle relative to the axis of the head part and simultaneously firing (knocking out). In this version, one drawback can be seen: the uncertainty of the departure of the striking elements from different channels and this is exacerbated by screw threading in the channels. However, under certain conditions, this option may be viable. In this case, the moderator should have zero time, and the hole that it determines should be equal to channel -2. This option will require a more thorough determination of the tared force on plug 14.

4. When using the warhead to combat land-based stationary objects or having a speed that is low compared to the flight of a rifled gun projectile, a very noticeable effect can be obtained:
- defeat of dispersed objects in depth, and without sound effect at the point of the object, until the striking element flies. Such a projectile with a given warhead can replace dozens of automatic quick-firing guns and machine guns in terms of efficiency with simplicity and low cost of manufacture for use and for hitting ground targets.

 Thus, all the goals that have been formulated above are achieved, and, as an engine, a sleeve with an explosive charge or a portable rocket launcher of any type can be used without modification.

Claims (2)

 1. The head part of the projectile, comprising a housing, a knockout charge placed along the axis of the head part, striking elements and a controlled blasting device, characterized in that the housing has channels communicating with the knockout charge, with a screw thread and a chamber for the first striking element, which located at the outlier charge, subsequent striking elements mate with the channel movably along its axis and are fixed at the same angle as the first striking element, with the possibility of separation after departure from the channel, the expelling the charge is made in the form of sections with moderators between them, with the sections located in the channel area, and moderators between the channels.  2. The head of the projectile according to claim 1, characterized in that the fixing of the striking elements is carried out using a protrusion and a groove with a common insert that forms a common protrusion for the mating two adjacent elements, and springs are placed between the striking elements to separate them after departure from the channel .

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