CZ107693A3 - Training cartridge shell - Google Patents

Abstract

A training cartridge shell, particularly for small and medium calibre weapons, with autodestruct system, formed by two independent, physically differentiated initiation systems (13, 20), the first using mechanical inertia and the second heat.<IMAGE>

Description

Practice bullet

Technical field

The invention relates to a projectile bullet projectile, in particular to a projectile. a small caliber body, /., a medium-caliber formed / inside of which a tracer is developed at the rear, a mid-explosive and a lighter at the front.

Current_technologies

Practice missiles for small and medium caliber are used in practice shooting in conditions of limited, endangered space.

Known designs of these missiles usually use two methods of solution. The first is characterized by a classic missile, where instead of explosive is used another substitute explosive mass.

The disadvantage of this solution is the possibility of inadmissible crossing of the defined danger area during the practice shooting, because the impact occurs in the reflection, from the terrain, and the bounce of the missile outside this space, or its crossing at a greater angle of elevation. '

In the second solution there is an explosive charge in the projectile that is initiated by means of one initiation system. This initiation system is typically connected to the lighter.

t i tys

The disadvantage of this solution is a significant percentage of failures}, when auto-destruction missiles.se fails.

This reduces the safety after firing when the unexploded projectile beyond the target area is out of bounds.

SUMMARY OF THE INVENTION

The above-mentioned disadvantages are greatly reduced by the projectile charge missile of the invention whose self-destruct system is formed by two independent, physically different initiation systems, the first. the initiator system is a mechanical inertia and a second thermal.

By applying this self-destruct system, the reliability of the missile self-destruct function is of the order of magnitude, since both systems are completely independent of each other. Another advantage is that the independent initiator systems each work on a different physical principle. One-is behind ₇ / '- ^r lo that η ^: n a. The mass at the time of kinetic ethics re and at the second on the heat transfer capability.

When the wound develops in the barrel, both activated independent initiation systems simultaneously provide barrel and mask security.

Image_View_of_Drawing

The projectile bullet of the invention is shown in the basic embodiment in longitudinal section with a partial view in its front cgival portion. .

Embodiment tor

The .cvičného bullet is. formed body 3 is _LZ |><FA please .rozdělen internal partition wall second Externally _j.e first SLR body-EJ "y_o.pa-class-rimmed en.Ovodicí 2 · The rear of the interior of the projectile? Y-site baffle ring 2 inserted cup £ _of which is in its central part cambered from the partition 2. At the cup 4 is inserted at least one spacer j? with an opening at the cup opening. On the inner circumference is in the rear of the bullet is inserted cardboard tube 6. ”The remaining space is traced tracers?. The partition 1 is provided with a central opening, filled with the cup outlet 6 with fine-grained dust 13. On the other hand, the partition 2 is provided with a further spacer 6 with a central through hole above which a rear detonator 6 is positioned. The central part of the internal space of the missile is then filled with a 1S explosive. On the side of the explosive 10, the screw is removed from the applicator only outside the vortex. in its ogive shape, the body of the projectile. In the lighter 11, a sleeve 42 is fastened by a bolted connection with a stab mechanical mechanical inertia system 15, which consists of a needle 11 against which a primer 15 is mounted under the pressure of the coil spring 15. Ignition 1é. It is not shown kanálί ''^'kem connected in housing 12 secured zpožďovací.složí 17. This is. then through another channel (not shown) interconnected via. and the fuse ',' · V '- ³ II 19th front detonator fuse detonator 18 with a front 19, formed CI / detonation device are threaded into the lighter 11 so that the p zalaborované front assembly engages detonator 19 into the front ripped _T * v.iny, · 18V.? Will-- between the lighter l / and -the explosive -'- lS is at the detonator- '? Retracted / removable extension ^: £ .. Next; spacer:: is T

T 4.. inserted before laborac.í lighter 11 in the upper front part of his ^soul: tiny.

The shank 7 with the fine-dust cup 6 in the cup cavity 6, and the through-hole, the baffles 1 form together with the rear part. The thermal initiation system 20.

When the wound develops in the barrel (not shown) aktiý ·. The kinetic energy of the projectile causes a greater inertia force in the mechanical inertia system 52, where the igniter 16, under the action of these forces, surpasses the inertia forces.

The coil spring 15 is supported by the needle 14.

Activation of the igniter 2 causes the flame to be whipped through a channel (not shown) onto the delay component 17. The delay component 17 can be shaped according to the internal configuration of the lighter 11 into a whole series of shapes. elements. The delay time is selected within a certain range, "with the username, _R, 'fading to, parameters of weapons and size of the affected area. Po. · ;; The bursting of the delay assembly 17 terminated by an elevation composition (not shown) causes a flame whip on the front detonator 19 (not shown) and subsequent self-destruction of the projectile due to the initiation of the explosion 10 at a safe distance from the barrel not shown. During the development of the wound in the barrel (not shown) is during the entire movement of the projectile ^! not shown in the barrel and at a short distance in front of the barrel; The whip channel to the front detonator 19. The closure is achieved by the detonator 18, which may be, for example, a slide. This achieves ^{: Λ} · the barrel and, in part, the mask certainty.

_; During the wound development in the barrel (not shown), it is ignited

’. folding of the stopper £ - the stopper £ gradually burns on the flight path approximately in parallel layers until the burning layer is transferred to the cup 2. due to the transfer of heat from the tracer to the cup. The flame whip is directed to the rear detonator £. By function of the rear detonator 9, the explosive 10 is initiated and hence self-destruction of the missile through the thermal initiation system 20. Preferably, different timing of the two above-mentioned independent initiation systems 13, 20, may be used. '. (The technical solution according to the invention is advantageous in particular to be used for training cartridges. Both initiation systems 15, 20 are nevertheless independent of one another and operate on a different physical principle. They preferably complement each other.

The result is an order of magnitude higher function reliability than in the known embodiments.

Claims (1)

Patent π and 'years A projectile bullet, especially for small and medium calibers; . ^? : Autodestrukčním with a system forming a body inside which is been loaded at the rear of the tracer in the central portion, and explosive -in front of the lighter TICK _I_ ^ ^ E_ ^ thn destruct system ₅ that is formed by two independent ,. physically different initiation systems (13, 20). The projectile charge missile of claim 1, wherein the first initiation system (13) is a mechanical inertia and the second initiation system (20) is thermal.