RU2313059C1 - Round for practice fire - Google Patents

Abstract

FIELD: quick-firing rounds designed mainly, for trench mortaring from an automatic mortar.

SUBSTANCE: the round has a case, propellant charge and a detachable ammunition. The primary cartridge of the ammunition includes pyrotechnic and ignition compounds. Hermetically sealed overlapped through holes adjoining the pyrotechnic compound of the primary cartridge are made in the body, a compensator is installed between the fuse and the primary cartridge. The offered round has technical characteristics approximate at a maximum to those of its service analog beginning from the moment of the shot and ending with the moment of actuation of the ammunition.

EFFECT: enhanced efficiency of use of the round at a practice fire in the process of training of the personnel.

5 cl, 3 dwg

Description

The invention relates to unitary shots intended for firing practice mainly from an automatic grenade launcher.

Known training shot for the patent of France, cl. F42B 12/36, application No. 2640368 dated December 1989. The munition has a housing containing a metal box thrown back when fired. The box is placed in a cavity that is closed by a lid formed by a rigid inner base and a thin outer plate holding the base in a certain position. The plate, in turn, is held by a box flange directed radially inward. To facilitate separation during firing, the diameter of the base is made smaller than the diameter of the holding plate.

However, the considered design of the training shot is not applicable for shots from automatic grenade launchers in firing practice, as it cannot solve any of the tasks for such shots, namely, to provide the possibility of maximizing the technical characteristics of the training shot to its combat counterpart, since the design of the training munition the shot does not provide for the necessary structural features of the nodes and elements included in it, for example, a casing, approximate in its g barite-mass characteristics of the analogue to combat, and the main charge, able to indicate the place hit the target munition.

Known practical shot according to the patent of the Russian Federation No. 2138006 of September 20, 1999, class. F42B 8/02, 4/02 - prototype. The shot contains a sleeve, a propelling charge and a housing with a head part rigidly fixed in it, in which an initiating device is placed connected with checkers of a smoke-forming composition. The initiating device is made inertial and connected to the smoke-generating pieces by means of a pyrotechnic moderator and an ignition unit. The checkers of the smoke-forming composition are made with an axial channel and fill without volume intermediate elements the body volume, which is provided in the bottom with a central hole closed by a lid on the side of the propellant charge. Through the resulting smoke trail, the shot provides information on the flight path of the ammunition, including the place of its fall and its encounter with the obstacle.

With all the positive qualities, the considered practical shot has a significant drawback - the inability to repeat the shot of a military analogue with this practical shot. This is due to the mismatch between the overall mass characteristics of the munition of the considered practical shot and the pattern of its operation compared to the munition of a combat shot, namely, the action pattern of the combat shot provides that the overall mass characteristics of the munition of this shot on the aerial flight path remain unchanged until they meet it with an obstacle, while in the ammunition of a practical shot taken as a prototype, the overall mass characteristics change already in the air trajectory of the munition before meeting with an obstacle. It is extremely difficult to achieve an exact match to the flight weight of the munition of a practical shot, its alignment compared to a combat analogue, since during the flight due to the operation of the smoke-forming checkers and obtaining a smoke trail, the mass characteristics of the munition of a practical shot and, accordingly, ballistics, firing range, and accuracy and other technical characteristics that differ from the technical characteristics of the ammunition of a combat shot.

The objective of the claimed invention is to increase the effectiveness of the use of training ammunition in training personnel.

The technical result consists in providing the possibility of maximizing the technical characteristics of a shot for training firing at its combat counterpart - combat shots of various modifications throughout the entire duration of the munition, starting from the moment of the shot (pulling the grenade launcher trigger) and ending with the moment the munition fires, and the possibility of checking the accuracy of the hit , the range and accuracy of ammunition, checking its ballistics.

The technical result is achieved by the fact that the shot for firing practice includes a sleeve, a propelling charge and detachable ammunition containing a body with the main charge placed in it and a fuse. The main charge of the ammunition includes pyrotechnic and igniter compositions. The body has hermetically sealed through holes adjacent to the pyrotechnic composition of the main charge, and a compensator is installed between the fuse and the main charge.

Observance of all of the above signs will allow, when conducting firing from an automatic grenade launcher, to ensure that the technical characteristics of the shot for firing practice are as close as possible to the parameters of its combat counterpart - combat shots of various modifications throughout the entire duration of the ammunition, starting from the moment of the shot (by pulling the grenade launcher trigger) and ending the moment of the munition.

Performing the main charge of ammunition from pyrotechnic and igniter compositions will allow you to create a clearly visible sign at the place of ammunition hit, by which, if necessary, it is easy to check the accuracy of the hit, the range and accuracy of fire of the ammunition, and check its ballistics.

The implementation in the munition enclosure of hermetically sealed through holes adjacent to the pyrotechnic composition of the main charge will allow, after meeting the obstacle, to ensure the gradual exit of the gases generated from the actuation of the pyrotechnic composition of the main charge and to obtain a clearly visible indication of the location of the munition, while during the flight of the munition for firing on an air trajectory, in contrast to the prototype design, its overall mass characteristics, as in its combat analogue, remain unchanged, since the pyrotechnic composition is activated only after the ammunition encounters an obstacle (or after it enters the ground) and the munition fuse fires. In addition, it is possible to verify the technical characteristics of a combat analogue of a shot (accuracy of hit, range and accuracy of shooting, ballistics) on a shot for training shooting and, accordingly, saving both the combat shots themselves and the funds spent directly on training personnel.

In contrast to the design of the prototype, not only the smoke-generating composition, but also other necessary pyrotechnic compositions (lighting, luminous, sound, spark and other special compositions) selected in each case depending on the delivered the implementation of training shooting tasks.

The introduction of a compensator between the fuse and the main charge of the ammunition will maximize the mass characteristics of the ammunition to its military counterpart. The location of the compensator relative to the front end of the ammunition and the mass of the compensator are selected, in this case, from the condition of equality of centering and flight weight of the shot for training shooting and its combat analogue.

In individual specific cases, the design of the shot can be performed using the dependent features indicated in the claims.

The main charge of the ammunition can be, for example, in the form of a smoke block, including two consecutively located smoke charges and one ignition charge located behind the smoke charges. As a pyrotechnic composition of a smoke charge, for example, a smoke composition with the addition of smoke powder DRP-3 can be used, and as an igniter composition of an ignition charge, composition B-6M with the addition of smoke powder DRP-3. The addition of quick-burning smoke powder to the composition of igniter and smoke charges will make it possible, in the first case, to reliably use the igniter composition when the detonator detonator is fired and, in the second case, on the one hand, to reliably use the smoke composition from the ignition charge and, on the other hand, to create the necessary pressure for guaranteed simultaneous release of the through holes of the housing from the devices overlapping them.

Through holes in the shell of the ammunition can be located opposite the diameter of the shell relative to each other, and their overlap can be performed using sealed U-shaped metal caps. The bottom of the cap can be installed on the outer diameter of the shell of the munition, and each side of the cap is chosen equal to the thickness of the shell of the munition in the plane of the holes. Due to the fact that the caps, unlike the cover that covers the central hole in the bottom of the hull, provided for by the prototype design, are discarded only after the ammunition encounters an obstacle (or after it enters the ground), during the duration of the flight of the ammunition during firing, as in its combat counterpart, the overall mass characteristics of the ammunition do not change. This will allow, if necessary, to ensure the most accurate correspondence of the ballistic characteristics of the training munition, as well as other parameters of the shot, to its combat counterpart.

The compensator can be made in the form of a ring, and a set of gaskets can be placed between the fuse, the compensator and the main charge. The ring can be made, for example, of metal, while the inner diameter of the ring can be chosen larger than the outer diameter of the stage of the munition fuse case, in which the output detonator is fixed, and the outer diameter of the ring is smaller than the one adjacent to the compensator of the internal diameter of the munition shell. This will save the useful volume of the shell of the ammunition, it is easier to achieve equal flight weight and centering of the ammunition with its combat counterpart. With the help of a set of gaskets between the fuse, the compensator and the main charge of the ammunition, the centering of the ammunition equal to the centering of its combat analogue can easily be provided, depending on the masses of the components (casings, fuses and other elements) included in the ammunition, the density of the applied pyrotechnic composition of the main charge received when assembling a specific batch of shots, since when assembling various batches of shots, some parameters of the nodes included in them usually change.

Thus, the totality of all the above characteristics will allow, when conducting firing from an automatic grenade launcher, to provide the opportunity to obtain the most approximate technical characteristics of a shot for training firing to the parameters of its combat analogue - combat shots of various modifications throughout the duration of the shot’s ammunition, starting from the moment of the shot (clicking on trigger grenade launcher) and ending with the moment of operation of the ammunition, to increase the effectiveness of the use of ammunition in firing at training process for personnel.

Figure 1 shows the design of the proposed shot for firing practice, figure 2 - the location of the through hole in the shell of the munition, figure 3 - the installation location of the compensator.

The firing shot includes a detachable ammunition 1, a sleeve 2, in which a propellant charge 3 and an igniter capsule 4 are placed. Ammunition 1 consists of a body 5, a main charge 6 placed in the body 5, and a fuse 7. The body 5 is hermetically sealed through holes 8. The main charge 6 includes pyrotechnic 9 and igniter 10 compositions. Holes 8 are adjacent to the pyrotechnic composition 9. Between the fuse 7 and the main charge 6, a compensator 11 is installed, the location of which is relative to the front end of the munition (distance “L”) and the mass is selected from the condition of equal centering and flight weight of the munition 1 and its combat analogue. The main charge 6 of the ammunition 1 can be made in the form of a smoke block, including two consecutively located smoke charges and one ignition charge located behind the smoke charges. As the pyrotechnic composition 9 of the smoke charge, a smoke composition with the addition of smoke powder 12 can be used, and as the ignition composition 10 of the ignition charge, the ignition composition with the addition of smoke powder 12. In addition to the composition of the main charge 6 of the smoke composition 6 listed as the pyrotechnic composition, the smoke composition can be used and other pyrotechnic compositions: lighting, luminous, sparkling, sound and other special compositions - depending on the training arrows to the task. The overlapping through holes 8 in the housing 5 (see figure 2) can be performed using sealed metal U-shaped caps 13. In this case, the bottom 14 of the cap is installed on the outer diameter "D ₁ " of the housing 5, and each side 15 of the cap is equal to the thickness "T ₁ " of the housing in the plane of the holes 8. The compensator 11 (see figure 3) can be made of metal, for example steel grade 3, and have the shape of a ring. The inner diameter "d ₂ " of the ring is larger than the outer diameter "D ₃ " of the stage 16 of the fuse 7, in which the output detonator 17 is fixed, and the outer diameter "D ₂ " of the ring is smaller than the inner diameter "d ₁ " of the housing 5 adjacent to the compensator 11. The installation location and the mass of the compensator 11 are selected from the centering condition of the shot ammunition, and the installation location of the compensator 11 can be selected by selecting gaskets 18 placed between the fuse 7, the compensator 11 and the main charge 6 of the ammunition 1.

The action of the shot during firing practice is as follows.

When the grenade launcher is pulled, the igniter 4 is fired, from which the propellant charge 3 is ignited, and the ammunition 1 is separated from the sleeve 2. During the flight of the ammunition and until it encounters an obstacle (or soil), its technical characteristics, as well as the combat analogue of the ammunition do not change. When the ammunition 1 meets the ground or when the ammunition hits the obstacle, the fuse 7 fires, from which the igniter 10 and pyrotechnic 9 of the main charge 6 of the ammunition are triggered. Through the openings 8, the outflow of gases generated from the actuation of the pyrotechnic 9 composition of the main charge 6, indicating the place of the munition drop 1. The gases formed from the actuation of the pyrotechnic 9 composition of the main charge 6, the gases first act on the cap 13 and at the same time squeeze it out of the housing 5, releasing, when this, openings 8. According to the observed place of falling of ammunition 1, if necessary, evaluate the technical characteristics of the shot and make adjustments to the firing.

The use of the design of a shot for training in the present application, when conducting firing from an automatic grenade launcher, will provide the opportunity to obtain the most approximate technical characteristics of the shot to the technical characteristics of its combat counterpart - combat shots of various modifications throughout the duration of its ammunition, starting from the moment of the shot (pressing on the trigger of a grenade launcher) and ending with the moment of operation of the ammunition, increase the effectiveness of the shot when shooting at the training of personnel.

Claims (5)

1. A shot for firing practice, including a cartridge case, a propelling charge and detachable ammunition, comprising a body with a main charge placed in it and a fuse, characterized in that the main charge consists of pyrotechnic and igniter compositions, and through holes are made in the body adjacent to the charge pyrotechnic composition and hermetically sealed with the possibility of their release and outflow of gases through them when the pyrotechnic composition of the main charge is triggered, while between the fuse and the main charge Credited compensator. 2. The shot according to claim 1, characterized in that the main charge is made in the form of a smoke block, including two smoke charges in series along the longitudinal axis of the munition and one ignition charge located behind the smoke charges, the smoke composition being used as the pyrotechnic composition of the smoke charge with the addition of smoke powder, and as an igniter composition of the igniter charge, an igniter composition with the addition of smoke powder. 3. The shot according to claim 1 or 2, characterized in that the through holes in the housing are diametrically opposed to each other, and their overlap in the housing is performed using sealed U-shaped metal caps, with the bottom of the cap installed on the outer diameter of the housing, and each side of the cap is equal to the thickness of the housing in the plane of the holes. 4. A shot according to claim 1 or 2, characterized in that the compensator is made in the form of a ring, and a set of gaskets is placed between the fuse, the compensator and the main charge. 5. The shot according to claim 3, characterized in that the compensator is made in the form of a ring, and a set of gaskets is placed between the fuse, the compensator and the main charge.

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