RU2844589C1 - Ammunition for striking unmanned aerial vehicles - Google Patents

Abstract

FIELD: ammunition.

SUBSTANCE: invention relates to shrapnel ammunition for grenade launchers, in particular, under-barreled ones, intended for destruction of low-altitude unmanned aerial vehicles (UAV) by means of its explosion at approach to the target and scattering of a large number of finished striking elements (FSE). Ammunition comprises container with ready hitting elements (shrapnel) arranged in container, burster and propellant charges, as well as distance switch. Distance switch comprises front and rear axially fixed parts, as well as adjusting ring located between them, made with possibility of rotation around longitudinal geometrical axis of switch. Distance switch is provided with parallel to the ammunition longitudinal geometric axis, through, mutually axial rear fixed part fire-transfer channel, one of the mouths of which is located in the propellant charge socket, and the front fixed part fire-transfer channel, one of the mouths of which is formed on the front fixed part end surface facing the adjusting ring. Adjusting ring is equipped with a transition hole formed with the possibility of its axial location between the fire-transfer channels of the rear and front fixed parts of the distance switch in one of the positions of the adjusting ring. Distance switch is equipped with heat insulating rings equipped with mirror located C-shaped tracks from pyrotechnic material, and sealing pads installed with formation of track combustion products removal channel. Distance selector is equipped with a ratchet mechanism formed with the possibility of the adjusting ring turning by the shooter and the adjusting ring retention in the given shooting position during the ammunition movement to the target, as well as with the distances scale. Ammunition is equipped with a quick-detachable safety cap providing the capsule protection against mechanical impacts and the distance switch adjusting ring turn in the direction permitted by the ratchet mechanism.

EFFECT: easy-to-operate and relatively safe ammunition for hitting low-altitude UAVs.

7 cl, 10 dwg

Description

The invention relates to shrapnel ammunition for grenade launchers, in particular under-barrel ones, designed to destroy low-flying unmanned aerial vehicles (UAVs) by detonating them as they approach the target and dispersing a large number of ready-made striking elements (FSE).

From the book “Artillery weapons” edited by I.I. Zhukov, M. Mashinostroenie, 1975, a shrapnel-type shell is known, see pp. 44, 45 and Fig. 2.10 on p. 44, used before the First World War against battle formations of openly located infantry and cavalry, and later to combat light aircraft. The specified ammunition included a housing made in the form of a cylindrical steel cup, an expelling charge and a diaphragm located in the bottom of the housing, a warhead secured in the neck of the housing, a remote detonator located in the warhead, a central tube located between the diaphragm and the warhead, communicating with the remote detonator and expelling charge, as well as steel bullets (260 or 690 pcs. for shells, respectively, of calibers of 76 and 152 mm), located in a cavity formed by the cylindrical walls of the housing and the central tube, the diaphragm and the warhead.

In this case, from the book “Historical essay on the development of tubes and fuses from the beginning of their use to the end of the world war of 1914-1918” by V.I. Rdultovsky, M. State publishing house of the defense industry, 1940, p. 14, Fig. 11, a remote tube (fuse - in modern terminology) of the “Krupp system” of the 1878 model is known, including a fixed part equipped with an oppositely located striker channel and a channel for ignition of the main charge of explosive, as well as a movable part installed with the possibility of rotation, with subsequent fixation, located coaxially with respect to the striker channel. Where the movable part is made equipped with an annular groove filled with a powder (pyrotechnic) moderator, and the fixed part, accordingly, with channels for communicating the moderator with the striker channel and the ignition channel of the main charge. The outer surface of the moving part of the described distance tube contained a scale with 55 divisions with a value of one division of 0.2 sec.

From the textbook “Fuses and Detonating Devices of Aerial Bombs”, A.L. Grinkevich, A.S. Lukin, V.V. Shvedov, Samara State Aerospace University named after S.P. Korolev”, 2004, see p. 18, the penultimate sentence of the first paragraph and Fig. 5b, a “delay device” “for several seconds and minutes” is known, consisting of a package of tightly packed, axially adjacent disks, each of which contains an open annular and radial identically formed grooves, as well as a channel parallel to the longitudinal geometric axis of the package, loaded with a pyrotechnic composition. The disadvantages of this delay device include the lack of means for smoothly adjusting the time of transfer of the fire effect from the initiation device to the main charge, as well as the lack of means to facilitate the removal of combustion products of the pyrotechnic composition placed in the grooves of the disks, which can lead either to accelerated combustion of the pyrotechnic composition or to its extinction.

From the patent for utility model RU 6613, IPC F42C 19/08, published 16.05.1998, a detonator with an adjustable response delay is known, within the adjustment range, with an accuracy of up to tenths of a microsecond, including an axially located fixed part, located on the side of the main charge of the explosive, and a movable part installed with the possibility of rotation, located on the side of the initiating substance. The fixed part is made provided with an open annular groove, located on the side of the movable part, a radial groove, located on the side of the main charge of the explosive and a channel connecting the radial and annular grooves of the fixed part; the grooves and the channel of the fixed part are made equipped with a pyrotechnic delay device. The movable part is provided with a radial groove located on the side of the initiating substance and a through channel extending to the annular groove of the fixed part; the groove and the channel of the movable part are equipped with a pyrotechnic delay device. The commented detonator is also provided with a device for fixing the movable part relative to the fixed part, formed by an arc-shaped through slot formed in the movable part of the detonator, the geometric center of which coincides with the geometric axis of rotation of the movable part, as well as a screw routed through the said slot, the threaded part of which is installed with the possibility of mating with the fixed part, and the head - with the possibility of frictional interaction with the part of the surface of the movable part of the detonator adjacent to the slot.

The solution for RU 6613 requires the fuse design to provide access to its moving part, access to the screw head of the device for fixing the moving part (access to the screw head may be closed by a fairing or limited by structural elements of the ammunition using the fuse), and the shooter to have a tool such as a screwdriver. It should be noted that the process of setting the required fuse response delay time is significantly long, which is unacceptable in short-term combat conditions, as well as the absence in the commented solution of means facilitating the removal of combustion products of the pyrotechnic delay element placed in the annular groove of the fixed part, which may lead to either accelerated combustion of the pyrotechnic delay element or its extinction.

The location of the fuse in the nose of the shrapnel projectile, regardless of the design features of the fuse, is not suitable for the manufacture of small-sized ammunition due to the fact that the fuse, fired by the expelling charge simultaneously with the shrapnel bullets, complicates the scattering of shrapnel bullets (SBS) in the direction of the projectile's movement. At the same time, the fired fuse reduces the inertial mass of the projectile body (significantly for small-caliber projectiles), which, together with the loss of explosion energy of the expelling charge to reset the fuse, reduces the damaging force of the SBS.

From the invention patent RU 2365862, IPC F42B 12/32, published 27.08.2009, a fragmentation-beam small-caliber munition is known, including a munition body made in the form of a metal cup containing a base and cylindrical walls, a propellant charge body and a propellant charge located on the end of the munition body on the side of its base, a fairing installed in the mouth of the munition body, equipped with a detonator, a cassette with a GPE located in the cavity of the munition body on the side of the fairing, a GPE expelling charge and an annular diaphragm - a wad, located in the cavity of the munition body between the GPE cassette and the base of the body. The cartridge with the propellant charge is made equipped with a central flame-transfer tube located between the propellant charge of the propellant charge and the detonator, equipped, in turn, with a propellant charge of the fairing and a pneumatic throttle located between the propellant charge of the fairing and the propellant charge of the propellant charge, where the body of the propellant charge is made in the form of a metal cup equipped with channels formed in its bottom part, oppositely directed relative to the fairing, through, parallel to the longitudinal geometric axis of the ammunition, for ejecting the combustion products of the propellant charge, as well as a through channel of the primer located on the longitudinal geometric axis of the ammunition, and a primer installed in the channel of the primer.

In this case, the fuse is designed with the ability to input information about the target during the firing process from the weapon barrel, as well as with the ability to operate upon contact with the target.

Ammunition according to RU 2365862, when used with weapons without a remote detonator programming device, has low effectiveness when firing at small air targets.

From the patent for invention RU 2789825, IPC F42B 12/02, F41H 13/00, published. 10.02.2023, adopted as a prototype, a munition for destroying unmanned aerial vehicles is known, including a munition body formed in the form of a steel cylinder containing a front part located in the direction of the shot and a rear part, a plastic segmented fairing fixed in the mouth of the front part of the munition body, a segmented steel container formed in the form of a glass and installed inside the front part of the munition body with an offset towards the fairing, a net with a GPE laid in the cavity formed by the container and the fairing, a distance switch fixed in the rear part of the munition body, a wad located adjacent to the bottom of the container, an expelling charge located between the distance switch and the wad, as well as a propellant charge body located on the end of the munition opposite to the fairing.

The container, wad and fairing are installed with the possibility of their being ejected in the direction of the ammunition's flight by the gases of the initiated expelling charge.

The distance switch is made as a composite, containing an axially located front fixed part connected to the rear part of the ammunition body, a rear fixed part connected to the propellant charge body, as well as an adjustment ring installed with the possibility of rotation relative to the longitudinal geometric axis of the ammunition, located between the front and rear fixed parts of the switch.

The propellant charge body is provided with a propellant charge socket located on the opposite end of the body relative to the distance switch, a propellant charge installed in the propellant charge socket, a transfer charge socket located on the side of the distance switch, a transfer charge located in the transfer charge socket, and also a flame transfer channel connecting the cavities of the propellant and transfer charge sockets.

The adjustment ring of the distance switch is made with three spaced, parallel to the longitudinal geometric axis of the ammunition, equidistantly removed from it through channels, in each of which a pyrotechnic delay device is located (obviously with different burning rates).

In this case, the rear and front fixed parts of the distance switch are made to be formed with the possibility of fire interaction, with the appropriate arrangement of the adjustment ring, the transfer charge with one of the pyrotechnic retarders, and when the latter burns out, with the ejection charge.

Ammunition according to RU 2789825 is also equipped with three pyromechanical valves, each of which contains a ball and a gas-generating charge formed in the front fixed part of the distance switch. In this case, any of the pyromechanical valves is designed with the possibility of fire interaction of the gas-generating charge with the initiated expelling charge, and also, with the corresponding arrangement of the adjustment ring, with the possibility of pushing the ball by combustion products of the gas-generating charge into the channel of the adjustment ring with the burnt-out pyrotechnic retarder and with subsequent blockage of this channel.

The disadvantages of the prototype include the significant longitudinal-axial size of the distance switch adjustment ring, which, given the limited length of the munition, leads to a decrease in the mass of the expelling charge and the GPE, the discreteness of the distance switch, as well as the increased labor intensity of its manufacture, due to the presence of pyromechanical valves, the multi-channel nature of the adjustment ring and the need to place pyrotechnic retarders with different combustion rates in the adjustment ring channels. At the same time, from the above-mentioned textbook "Fuses and Detonating Devices of Aerial Bombs", A.L. Grinkevich, A.S. Lukin, V.V. Shvedov, Samara State Aerospace University named after S.P. Koroleva, 2004, see p. 18, last sentence of the first paragraph, it is known that the delay time of pyrotechnic delay devices depends on both the atmospheric pressure and the temperature of the fuse, which obviously depends on both the ambient temperature and the time the fuse (equipped with a fuse) is held in this environment.

The objective of the invention was to create an inexpensive-to-manufacture, easy-to-use, relatively safe ammunition, designed with the ability to smoothly and quickly set the delay time of its operation, intended to destroy low-flying unmanned aerial vehicles, carried out using standard under-barrel grenade launchers.

The problem is solved in a munition for destroying unmanned aerial vehicles, which includes a cylindrical body, in which a front part located in the direction of the shot and a rear part are distinguished, a plastic segmented fairing secured in the mouth of the front part of the munition body, a segmented container formed in the form of a cup installed inside the munition body with an offset towards the fairing, GPE, placed in the container, a distance switch secured in the rear part of the munition body, a wad located adjacent to the bottom part of the container, an ejection charge located between the distance switch and the wad, as well as a propellant charge, where the distance switch is made composite, containing an axially located front fixed part connected to the rear part of the munition body, a rear fixed part, as well as an adjusting ring installed with the possibility of rotation, relative to the longitudinal geometric axis of the munition, located between the front and rear fixed parts of the switch.

The technical result is achieved by the fact that:

- The distance switch is made equipped with a coaxial, to the longitudinal geometric axis of the ammunition, cylindrical mounting hole formed in the end of the front fixed part of the switch, a stepped protrusion formed on the end of the rear fixed part of the switch facing the fairing, and a nut.

- The stepped projection of the rear fixed part of the distance switch is made to contain a neck (trunnion), a shaped spike, and a threaded top, arranged in series, starting from the side of the propellant charge housing, where the spike is formed to form a double guide base (term according to GOST 21495-76) for the front fixed part of the switch, and is located, accordingly, in its mounting hole, the neck is formed to form a double support base (term according to GOST 21495-76) for the adjustment ring and is made traced, accordingly, through its hole, the top is formed with its threaded part protruding from the mounting hole on the side of the propellant charge.

- The nut is made to be located on the threaded part of the top, while the nut, top and neck are made with the possibility of axial compression of the adjustment ring between the front and rear fixed parts of the switch with a force regulated by the conditions of use of the ammunition.

- The distance switch is made equipped with parallel to the longitudinal geometric axis of the ammunition, through, mutually axial flame-transfer channel of the rear fixed part, one of the mouths of which faces the propellant charge, and the other to the adjustment ring, and a flame-transfer channel of the front fixed part, one of the mouths of which faces the adjustment ring, and the other to the ejection charge.

- The adjustment ring is made composite, containing a steel shaped washer, the diameter of which is larger than the outer diameter of the rear fixed part, mounted, with the possibility of rotation, on the neck of the projection of the rear fixed part of the distance switch.

- The washer of the adjustment ring is provided with a transition hole, designed with the possibility of being located, in one of the possible positions of the adjustment ring, in the interval between the flame transmission channels of the rear and front fixed parts of the distance switch.

- The distance switch is provided with the first and second thermal insulation rings, as well as the first, second, third and fourth ring-shaped sealing pads, coaxial to the longitudinal geometric axis of the ammunition.

- Each of the thermal insulation rings is formed with the formation of an axial channel to the fire-transfer channels of the front and rear fixed parts of the switch, as well as a C-shaped (in the form of an open ring), coaxial to the longitudinal geometric axis of the ammunition, groove, flowing with one of its end sections into the channel of its thermal insulation ring.

- Thermal insulation rings are formed and installed with a mirror-image arrangement of their grooves.

- The distance switch is made equipped with a ratchet mechanism, containing in its composition a ratchet belt coaxial to the longitudinal geometric axis of the ammunition, formed by depressions located at intervals, formed on the surface of the front fixed part of the distance switch facing the adjustment ring, and at least two pawls formed integrally with the adjustment ring, each of which is designed in the form of a petal bent at an acute angle towards the ratchet belt, located with the possibility of interaction with one of the depressions of the ratchet belt and counteracting unauthorized rotation of the adjustment ring during rotation of the ammunition during firing and in flight.

- The distance switch is made with a support ring coaxial to the longitudinal geometric axis of the ammunition, fixedly secured to the periphery of the adjustment ring on the side of the rear fixed part of the switch, wherein the support ring is made with at least two hooks located on the surface opposite to the adjustment ring, any of which is formed in the form of a hole.

- The distance switch is provided with a distance scale located on the front fixed part of the switch with an offset to its rear fixed part, and a mark located on the support ring. In this case, the hooks of the support ring and the projections of the cap are arranged so as to enable unambiguous positioning of the cap relative to the distance scale, and the walls of the cap so as to enable unambiguous determination of the location of the mark on the support ring.

- The ammunition is made equipped with a plastic quick-release safety cap, the end of which is provided with projections formed with the possibility of forming a kinematic pair with the hooks of the support ring, and the walls are formed with the possibility of holding the cap on the rear fixed part of the distance switch, protecting the primer from mechanical impacts, and also turning the adjustment ring of the distance switch in the direction permitted by the ratchet mechanism.

In the first version of ammunition:

- The first heat-insulating ring is made integrated into the composition of the front fixed part of the switch, the second heat-insulating ring is made integrated into the composition of the rear fixed part of the switch, the first and second sealing pads are made fixedly fixed on the washer of the adjustment ring from the side of the front fixed part, and the third and fourth sealing pads are fixedly fixed on the washer of the adjustment ring from the side of the rear fixed part, wherein the first and third sealing pads are made formed and installed with their outer radial edges approaching the transition opening of the adjustment ring from the side of the neck of the rear fixed part of the switch, and the second and fourth sealing pads with their inner radial edges approaching the transition opening of the adjustment ring from the side of the periphery of the ammunition.

In the second version of ammunition:

- the first and second heat-insulating rings are made integrated into the composition of the washer of the adjustment ring, where the first heat-insulating ring is made located on the side of the front fixed part of the switch, and the second heat-insulating ring is made located on the side of the rear fixed part of the switch, the first and second sealing pads are made fixedly fixed on the end face of the front fixed part facing the adjustment ring, and the third and fourth sealing pads are made fixedly fixed on the end face of the rear fixed part facing the adjustment ring, wherein the first and third sealing pads are made formed and installed with their outer radial edges approaching the transition opening of the adjustment ring from the side of the neck of the rear fixed part of the switch, and the second and fourth sealing pads with their inner radial edges approaching the transition opening of the adjustment ring from the side of the periphery of the ammunition.

The invention is illustrated by the following drawings:

Fig. 1, which schematically shows a longitudinal section of the ammunition in its first variant design (the safety cap is not shown).

Fig. 2, which shows a view of the first variant of the ammunition from the side where the propellant charge is located (the safety cap is not shown); the triangular sign located under the position “0” shows the mark located on the support ring.

Fig. 3, which shows a view of the adjustment ring of the first variant of the ammunition from the side of the rear fixed part (the rear fixed part is not shown conditionally) of the distance switch.

Fig. 4, which shows a section A-A of the adjustment ring of the ammunition of the first variant design.

Fig. 5, which shows the conceptual design of the adapter and its location in the transition hole of the washer of the adjustment ring for the ammunition of the first variant design (see the section location in Fig. 1).

Fig. 6, which schematically shows a longitudinal section of ammunition (the safety cap is not shown conditionally) of the second and third variant designs.

Fig. 7, which shows a view of the ammunition of the second and third versions from the side of the propellant charge location (the safety cap is not shown conditionally); the triangular sign located under the position “0” shows the mark located on the support ring.

Fig. 8, which shows a view of the adjustment ring of the ammunition of the second and third variant designs from the side of the rear fixed part (the rear fixed part is not shown conditionally) of the distance switch.

Fig. 9, which shows a section A-A of the adjustment ring of the ammunition of the third variant design.

Fig. 10, which shows the conceptual design of the adapters, their location in the front and rear fixed parts of the switch and their connection with the washer of the adjustment ring in the ammunition of the second and third variant designs (see Fig. 6 for the section location).

The positions are designated:

1 - segmented plastic fairing,

2 - body,

3 - segmented container,

4 - ready-made striking elements (FSE),

5 - wad,

6 - expelling charge,

8- propellant charge body,

7 - leading belt protrusion,

9 - propellant charge,

10 - capsule,

11 - front fixed part of the distance switch,

12 - rear fixed part of the switch,

13 - adjusting ring,

14 - combustion product discharge channels,

15 - fire transmission channel of the rear fixed part,

16 - fire transmission channel of the front fixed part,

17 - detonator cap,

18 - second sealing pad,

19 - first sealing pad,

20 - transition hole of the adjustment ring (linear section of the U-shaped, in the development, channel for the removal of combustion products of the pyrotechnic material),

21 - the fourth sealing pad,

22 - third sealing pad,

23 - first thermal insulation ring,

24 - the second thermal insulation ring,

25 - adapter,

26 - ratchet belt recess of the ratchet mechanism,

27 - ratchet pawl,

28 - support ring hooks,

29 - cross-section of the arc-shaped section formed from the side of the front fixed part, U-shaped, in the development, channel for the removal of combustion products of the pyrotechnic material,

30 - cross-section of the arc-shaped section formed from the side of the rear fixed part, a U-shaped, in development, channel for removing combustion products of pyrotechnic material.

31 - groove for fixing ammunition in the weapon barrel,

32 - nut,

33 - obturator.

The invention can be implemented in a munition for destroying a UAV, which includes a body 2 formed in the form of a cylindrical cup, in which a front part, located in the direction of the shot, and a rear part (containing the bottom) are distinguished, a segmented plastic fairing 1, secured in the mouth of the front part of the munition body, a plastic container 3 formed in the form of a segmented cup, installed inside the munition body 2 with an offset towards the fairing 1, GPE 4, placed in the container 3, the first 5 wad, located with adjacency to the bottom of the container, the second wad (not designated by position, shown graphically), located on the side of the fairing 1 with adjacency to the GPE 4, an expelling charge 6, located between the first 5 wad and the bottom of the body 2, a propellant charge 9, as well as a distance switch, containing a front 11, a rear 12 fixed part and an adjusting ring 13.

The body 2 of the ammunition is made equipped with a hole coaxial to the longitudinal geometric axis of the ammunition, formed in its bottom, a threaded belt formed on the outer radial surface of the body from the bottom side (shown graphically), as well as protrusions 7 of the leading belt, located on the outer surface of the body with a spacing in accordance with the rifling of the weapon barrel (not shown).

Both easily flammable and hardly flammable gunpowder may be used as the expelling charge 6. In the case of using hardly flammable gunpowder, the ammunition must be provided with a beam cap-detonator 17 located on the side of the distance switch, and the opening in the bottom of the housing 2, accordingly, must be made either with the possibility of placing a cap-detonator in it, or with the possibility of tracing the flame thrust from the cap-detonator 17 to the expelling charge 6. In the case of using easily flammable gunpowder, the opening in the bottom of the housing 2 must be made with the possibility of tracing the flame thrust from the flame transfer channel (see below), formed in the front 11 fixed part of the distance switch, to the expelling charge 6.

As the detonator cap 17, either a ring ignition cap containing an inner and outer coaxially located sleeve (known from the prior art) or a central ignition cap (not shown) containing an outer sleeve (known from the prior art) can be used.

The detonator cap 17 of the ring ignition can be made either directly installed in the opening (shown graphically) of the bottom of the housing 2, or installed in the said opening using an intermediate ring-shaped spacer (not shown). In this case, the detonator cap 17 of the ring ignition must be formed with the radial walls of its inner sleeve being distanced, taking into account the space for the tool, from the radial periphery of the nut 32 (for more details on the nut, see below).

The central ignition detonator cap can be made either installed in the opening of the bottom of the housing 2 using an intermediate ring-shaped spacer, the internal radial walls of which must also be spaced from the radial periphery of the nut, or integrated into the composition of the front 11 fixed part of the distance switch with the possibility of tracing, through the opening in the bottom of the housing 2, the flame thrust from the detonator cap 17 to the expelling charge 6.

In order to reduce the visibility of the shooter to the operator of the UAV being hit in the short time after the shot:

- The ammunition can be equipped with a propellant charge 6, formed by a charge of black powder, which, when fired, forms a cloud of smoke that reduces the brightness range observed by the UAV operator in the visible (0.4-0.7 µm) region of the spectrum.

- The ammunition can be made equipped with a mixture of powder materials with a high refractive index, preferably, fractions of 1-10 μm, placed between the second wad and the fairing shell, and also laid, with vibration compaction, in a container together with the GPE, which, upon detonation of the expelling charge, forms an aerosol cloud that reduces the brightness range observed by the UAV operator in the infrared (short-wave 0.9 ... 1.7 μm, medium-wave 3 ... 5 μm, long-wave 8 ... 14 μm) regions of the spectrum. As such powder materials, the applicant proposes to use silicon powders, preferably, and aluminum nitride. In this case, filling the container with a mixture of powder materials and GPE 4 will ensure an increased density of placement of the mass laid in the container 3 and, as a consequence, lower dissipation losses of energy generated by the expelling charge. As GPE 4, the applicant proposes to use steel spherical or faceted shot, which has a greater, compared to lead, light-reflecting (when rotating and faceted - scattering) ability in the visible and infrared ranges; at the same time, steel has less plasticity compared to lead, which eliminates the crushing of pellets during their ejection from the container and when encountering structural elements of the UAV being hit, reduces the dissipation of the energy of the ejection charge on the deformation of shrapnel elements and, accordingly, increases the damaging force carried by a single GPE 4.

- It is advisable to make wad 5 in the form of a pellet, which breaks into fragments when ejected from the body 2 of the ammunition, formed from a porous material prone to charring (capable of smoldering). As materials for the manufacture of the powder (located on the side of the ejection charge 6) wad 5, the applicant proposes to use sphagnum peat, wood flour or mixtures thereof impregnated with potassium nitrate, which, when fired, form a cloud of smoke and a coarsely dispersed system of smoldering (emitting in the infrared range) fragments of wad 5.

The distance switch is made with a coaxial, to the longitudinal geometric axis of the ammunition, an annular collar formed on the end of the front 11 fixed part facing the fairing 1, provided with an internal thread, a cylindrical mounting through hole formed in the end of the front 11 fixed part of the switch, a groove 31 for fixing the ammunition in the barrel of the weapon, formed on the radial periphery of the front 11 fixed part of the switch with an offset towards the location of the propellant charge 9, as well as a stepped protrusion formed on the end of the rear 12 fixed part of the switch facing the fairing (shown graphically), and a nut 32.

In this case, the body 2 of the ammunition is made fixedly connected to the front 11 fixed part of the distance switch by means of the threaded belt of the body 2 and the internal thread of the collar of the front 11 fixed part of the switch.

The stepped projection of the rear 12 fixed part of the distance switch is made to contain a neck, a shaped spike, and a threaded top (shown graphically), sequentially arranged, starting from the side of the location of the propellant charge 9, where the spike is formed to form a double guide base for the front 11 fixed part of the switch and is located, respectively, in its mounting hole, the neck is formed to form a double support base for the adjustment ring 13 and is made traced, respectively, through its hole, the top is formed with its threaded part protruding from the mounting hole of the front 11 fixed part of the switch towards the location of the ejection charge 6, provided with a central socket formed with the possibility of locking the nut 32 by flaring the top.

Nut 32 is made to be located on the threaded part of the top, while nut 32, the top and the neck are made with the possibility of axial compression of the adjusting ring 13 between the front 11 and rear 12 fixed parts of the switch, with a force regulated by the conditions of use of the ammunition.

The rear 12 fixed part of the distance switch is made to contain a socket for the propellant charge housing 9 (shown graphically), formed on the opposite end of the housing relative to the fairing 1, equipped with a housing (shown graphically) of the propellant charge 9 installed in said socket, containing, in turn, a socket (shown graphically) of the propellant charge 9, formed on the side of the location of the fairing 1, a channel (shown graphically) of the primer 10, located on the longitudinal geometric axis of the ammunition, channels 14 for ejecting combustion products, located at a distance from the channel of the primer 10, where one of the mouths of any of the said channels is located in the socket of the propellant charge, and the other on the opposite end of the propellant charge housing relative to the fairing 1, wherein the rear 12 fixed part of the distance switch is made to be equipped with a propellant charge 9, placed in the propellant charge socket, with the primer 10 installed in the primer channel.

The distance switch is provided with coaxial, to the longitudinal geometric axis of the ammunition, mirror-positioned, annular grooves (shown graphically) of the first heat-insulating ring, formed in the front 11 fixed part of the switch from the side of the adjusting ring 13, and a groove (shown graphically) of the second heat-insulating ring, formed in the rear 12 fixed part of the switch from the side of the adjusting ring 13.

The distance switch is made equipped with parallel to the longitudinal geometric axis of the ammunition, through, mutually axial flame-transfer channel 15 of the rear 12 fixed part, one of the mouths of which is located on the surface of the propellant charge housing seat adjacent to the propellant charge 9, and the other in the groove of the second heat-insulating ring, and a flame-transfer channel 16 of the front fixed part, one of the mouths of which is located in the groove of the first heat-insulating ring, and the other on the end surface of the front 11 fixed part facing the expelling charge 6 or the detonator cap 17 (if present).

The distance switch is made equipped with a first 23 heat-insulating ring installed in a groove of the front 11 fixed part, a second 24 heat-insulating ring installed in a groove of the rear 12 fixed part, each of which is provided with a through flame-transfer channel (shown graphically) parallel to the longitudinal geometric axis of the ammunition, located axially to the flame-transfer channel of the fixed 11,12 part of the switch carrying the heat-insulating ring 23, 24, each of which is provided with a C-shaped (in the form of an open ring), coaxial to the longitudinal geometric axis of the ammunition groove formed on the surface of the heat-insulating ring facing the adjusting ring 13 and flowing, with one of its end sections, into the flame-transfer channel of the heat-insulating ring, where the first 23 and second 24 heat-insulating rings are made with a mirror arrangement of their C-shaped grooves.

The fire-transfer channels and grooves of each of the thermal insulation rings 23, 24, as well as the fire-transfer channels of the rear 12 and front 11 fixed parts of the distance switch, are filled with, preferably, low-gas, pyrotechnic material.

The adjusting ring 13 is made composite, formed by a steel shaped washer, the diameter of which is greater than the outer diameter of the rear 12 fixed part, mounted with the possibility of rotation on the neck (shown graphically) of the rear 12 fixed part of the distance switch, the first 19 and second 18, coaxial to the longitudinal geometric axis of the ammunition, annular sealing pads, rigidly fixed on the washer from the side of the front 11 fixed part, as well as the third 22 and fourth 21, coaxial to the longitudinal geometric axis of the ammunition, annular sealing pads, rigidly fixed on the washer from the side of the rear 12 fixed part of the switch, formed from a fire-resistant, heat-insulating and moisture-proof material, as an option, from graphitized paronite.

In order to ensure the necessary sealing of the switch and to achieve minimum resistance to rotation of the adjusting ring 13, the surfaces of the fixed parts 11, 12, mating with the surfaces of the sealing linings 18, 19, 21, and 22, must be formed with low surface roughness, while the surfaces of the linings must be covered with an antifriction material, for example, finely dispersed talc.

The washer of the adjusting ring 13 is made provided with a through transition hole 20, made with the possibility of being located, in one of the possible positions of the adjusting ring 13, in the interval between the flame-transfer channels of the rear 12 and front 11 fixed parts of the distance switch, wherein the first 19 and third 22 sealing pads are made formed and installed with their outer radial edges approaching the transition hole 20 from the side of the neck of the rear 12 fixed part of the switch, and the second 18 and fourth 21 sealing pads with their inner radial edges approaching the transition hole 20 from the side of the periphery of the ammunition.

In a particular case, the transition opening 20 of the adjusting ring 13 can be made in the form of an arcuate slot, the geometric center of the arcuate walls of which coincides with the geometric axis of rotation of the adjusting ring 13, wherein the first 19 and third 22 sealing pads are made formed and installed with their outer radial edges approaching the arcuate slot from the side of the neck of the rear 12 fixed part of the switch, and the second 18 and fourth 21 sealing pads with their inner radial edges approaching the slot from the side of the periphery of the ammunition.

The distance switch of the described variant is made equipped with an adapter 25 (see Fig. 5), containing a base, fixedly installed in the approaching, during rotation of the ammunition, end of the transition opening 20, and a pyrotechnic paste applied to the base with the formation of sliding contacts between the paste of the adapter 20 and the surfaces of the pyrotechnic materials placed in the grooves and channels of the first 23 and second 24 thermal insulation rings (shown graphically).

By making the grooves of the first 23 and second 24 heat-insulating rings open and by the possibility of arranging the transition hole 20 of the adjusting ring 13 in the interval between the groove-free sections of the said heat-insulating rings, blocking of the transmission of fire action from the fire-transfer channel of the rear 12 fixed part (from the propellant charge 9) to the fire-transfer channel of the front 11 fixed part (to the expelling charge 6) is ensured (made possible).

By making the washer of the adjusting ring 13 provided with a transition hole 20 and an adapter 25 installed in the transition hole 20, as well as the possibility of arranging the transition hole 20 and the adapter 25 between the channels of the first 23 and second 24 heat-insulating rings, which, in turn, are axial to the fire-transfer channels of the fixed 11 and 12 parts of the distance switch carrying the heat-insulating rings, a linear transmission of the fire effect from the fire-transfer channel of the rear 12 fixed part (from the propellant charge 9) to the fire-transfer channel of the front 11 fixed part (to the expelling charge 6) is ensured.

By making the washer of the adjusting ring provided with a transition hole 20 and an adapter 25 installed in the transition hole 20, and by making the grooves of the first 23 and second 24 heat-insulating rings open (C-shaped), coaxial to the longitudinal geometric axis of the ammunition, mirror-like located, as well as by the possibility of changing the angular location of the transition hole 20 and the adapter 25 relative to the fire-transfer channels of the first 23 and second 24 heat-insulating rings, carried out by turning the adjusting ring 13, it is possible to form an adjustable in length (adjustable in steps, due to the presence of a ratchet mechanism, see below), U-shaped, in the development, channel for transmitting the fire effect from the fire-transfer channel of the rear 12 fixed part (from the propellant charge 9) to the fire-transfer channel of the front 11 fixed part (to the expelling charge 6).

By making the adjusting ring 13 equipped with sealing pads 18, 19, 21, 22, by arranging the first 19 and second 18 pads with contact both with the end sections of the front 11 fixed part and with the washer (shown graphically) of the adjusting ring 13, by arranging the third 22 and fourth 21 pads with contact both with the washer of the adjusting ring 13 and with the end sections of the rear 12 fixed part, by making the washer of the adjusting ring 13 equipped with a transition hole 20, partially filled with the body of the adapter 25, the formation of an adjustable in length, communicating with the flame-transfer channel of the rear 12 fixed part and the channels 14 for ejecting combustion products (at the initial stage - propellant charge 9), U-shaped, in the development, channel (its sections designated by pos. 29 and 30) for removing combustion products of the pyrotechnic material placed in the grooves and channels of the thermal insulation rings 23, 24, as well as in the fire transfer channel of the front 11 fixed part.

It is obvious that the distance switch can be made with inversion (Latin inversio - turning over, rearrangement) of the thermal insulation rings 23, 24 and sealing pads 18, 19, 21, 22.

In the inverted version of the switch, the adjusting ring 13 is also made composite, but formed by a steel shaped washer, the first 23 heat-insulating ring, fixedly connected to the washer from the side of the front 11 fixed part, the second 24 heat-insulating ring, fixedly connected to the washer from the side of the rear 12 fixed part, where the washer of the adjusting ring 13 is made provided with a through transition hole 20, located, in one of the positions of the adjusting ring 13, axially to the fire-transfer channels of the front 11 and rear 12 fixed parts of the switch. In this case, the said thermal insulation rings must be formed with the formation of channels axial to the transition hole 20 and parallel to the longitudinal geometric axis of the ammunition, as well as C-shaped (in the form of an open ring), coaxial to the longitudinal geometric axis of the ammunition, mirror-like located grooves, fabricated on the surfaces of the thermal insulation rings facing the fixed parts of the switch, flowing, with one of their end sections, into the channel of the thermal insulation ring containing the groove.

The first 23 and the second 24 heat-insulating rings can be formed by known prior art methods of casting with embedded reinforcement, which is a pre-formed washer of the adjusting ring 13, installed in a given position in the cavity of the mold, preferably a vertical injection molding machine, before the casting cycle. In connection with the transfer of the heat-insulating rings 23, 24 to the composition of the adjusting ring 13, the front 11 and rear 12 fixed parts of the switch must be manufactured without forming grooves in them, contextually associated with the heat-insulating rings, which also reduces the labor intensity of manufacturing the front 11 and rear 12 parts of the switch.

In the inverted version of the switch, the sealing pads 18, 19, 21, 22 are arranged on the end surfaces of the front 11 and rear 12 fixed parts of the switch facing the adjusting ring 13 with a similar radial spacing to the non-inverted version.

In order to ensure the necessary sealing of the switch and to achieve minimum resistance to rotation of the adjusting ring 13, the surfaces of the adjusting ring 13, mating with the surfaces of the sealing linings 18, 19, 21, and 22, must have low roughness, while the surfaces of the linings must be covered with an antifriction material, for example, finely dispersed talc.

In the inverted version of the switch, its front 11 and rear 12 fixed parts must be made equipped with two adapters 25 (see Fig. 7), integrated, in this case, with the flame-transfer channels of the front 11 and rear 12 fixed parts of the switch with the formation of sliding contacts between the coating (shown graphically) of the adapters 25 and the surfaces of the pyrotechnic materials placed in the C-shaped grooves of the first 23 and second 24 heat-insulating rings and in the transition hole 20 of the adjusting ring 13.

From the first and second versions of the switch follows the third, most technologically advanced version, in which the adjusting ring 13 is made equipped with a transition hole 20 formed in its washer, and heat-insulating rings 23, 24, and sealing pads 18, 19, 21, 22.

Where the transition opening 20 is formed with the possibility of its axial arrangement relative to the flame-transfer channels of the front 11 and rear 12 fixed parts of the switch in one of the positions of the adjusting ring 13, the first 23 heat-insulating ring, as well as the first 19 and second 18 sealing pads are located on the side of the front 11 fixed part, the second 24 heat-insulating ring, as well as the third 22 and fourth 21 sealing pads are located on the side of the rear 12 fixed part, wherein the first 19 and third 22 sealing pads are formed and installed with their outer radial edges approaching the transition opening 20 from the side of the neck of the rear 12 fixed part of the switch, and the second 18 and fourth 21 sealing pads with their inner radial edges approaching the transition opening 20 from the side of the periphery of the ammunition.

In connection with the transfer of the thermal insulation rings 23, 24 into the composition of the adjustment ring 13, the front 11 and rear 12 fixed parts of the switch must be manufactured without forming grooves in them that are contextually related to the thermal insulation rings.

In the third version of the switch, the first 23 and second 24 heat-insulating rings can be fabricated using both known prior art methods of casting with embedded reinforcement and by pouring a polymerizing heat-insulating mass between sealing pads 18, 19, 21, 22 previously secured to the washer.

As in the previous versions, the thermal insulation rings must be formed to form channels axial to the transition hole 20 and parallel to the longitudinal geometric axis of the ammunition.

When manufacturing heat-insulating rings 23, 24 using injection molding machines, the rings are formed with C-shaped (in the form of an open ring), coaxial to the longitudinal geometric axis of the ammunition, mirror-positioned grooves made on the surfaces of the heat-insulating rings facing the fixed parts 11, 12 of the switch, flowing, with one of their end sections, into the channel of the heat-insulating ring containing the groove.

In the case of forming heat-insulating rings 23, 24 by pouring a polymerizing heat-insulating mass between sealing pads 18, 19, 21, 22, C-shaped (in the form of an open ring), coaxial to the longitudinal geometric axis of the ammunition, mirror-like located fire-conducting tracks (analogs of C-shaped grooves filled with pyrotechnic mass), can be formed by step-by-step/alternate (first on one side of the adjusting ring 13, and then on the other) pouring of liquefied pyrotechnic material.

The described switch variants are not exhaustive, additional variations are possible that follow from the above, for example, the second 24 heat-insulating ring, as well as the third 22 and fourth 21 sealing pads can be made integrated into the composition of the rear 12 fixed part, and the first 23 heat-insulating ring, the first 19 and second 18 sealing pads integrated into the composition of the adjusting ring 13, or the second 24 heat-insulating ring can be made integrated into the composition of the rear 12 fixed part, and the sealing pads 18, 19, 21, 22 integrated into the composition of the adjusting ring 13.

In addition to the above, each or one of the thermal insulation rings can be formed by being manufactured integrally with correspondingly positioned sealing pads.

The distance switch is made with a ratchet mechanism, containing in its composition a ratchet belt coaxial to the longitudinal geometric axis of the ammunition, formed by depressions 26 located at equal intervals, in a quantity of, for example, 60, formed on the surface of the front 11 fixed part of the distance switch facing the adjustment ring 13, and at least two pawls 27, formed integrally with the washer of the adjustment ring 13, each of which is designed in the form of a petal bent at an acute angle towards the ratchet belt, located with the possibility of interaction with one of the depressions 26 of the ratchet belt and counteracting unauthorized rotation of the adjustment ring 13 during rotation of the ammunition during movement along the channel of the weapon and in flight.

The distance switch is made with a support ring (shown graphically), coaxial to the longitudinal geometric axis of the ammunition, fixedly secured to the periphery of the adjustment ring 13 from the side of the rear 12 fixed part of the switch, wherein the support ring is made with at least two hooks located on the surface opposite to the adjustment ring 13, any of which is formed in the form of a hole 28.

The ammunition is made equipped with a plastic quick-release safety cap (not shown), the end of which is provided with projections (not shown) formed with the possibility of forming a kinematic pair with the wells 28 of the support ring, and the walls are formed with the possibility of holding the cap on the rear 12 fixed part of the distance switch, protecting the primer 10 from mechanical impacts, and also turning the adjusting ring 13 of the distance switch in the direction permitted by the ratchet mechanism.

The distance switch is made with a distance scale located on the front fixed part of the switch with an offset to its rear fixed part, and a mark located on the support ring (shown conditionally in Fig. 2). In this case, the wells 28 of the support ring and the projections of the cap are made arranged with the possibility of unambiguous positioning of the cap relative to the distance scale, and the cap is made either transparent, or provided with a marking projection duplicating the mark, or provided with a window formed with the possibility of visual observation of the support ring mark.

In order to protect the ratchet mechanism from exposure to moisture and to prevent the switch from freezing in the cold season, the adjusting 13 and support rings, as well as the section of the rear 12 fixed part located on the neck side, must be made recessed into a correspondingly formed socket (shown graphically) of the front 11 fixed part of the distance switch, wherein the surface of the support ring facing the radial walls of the said socket and the radial surface of the section of the rear 12 fixed part of the distance switch facing the support ring must be made equipped with annular grooves (designated conditionally), and the distance switch must be equipped with annular elastic obturators 33 installed in the sealing grooves.

For the purpose of separately loading the body 2 of the ammunition and the distance switch, the ammunition is preferably equipped with a ring-ignition detonator cap 17 and a plug (not shown) tightly installed in the inner sleeve of the cap, formed in the form of a glass, the mouth of which faces the distance switch, and the walls and bottom are made to form a nest for subsequent placement of the part of the top of the front 11 fixed part of the switch and the nut 32 protruding into the body 2.

Filling of the fire-transfer grooves and channels is performed by pouring a liquid mass of pyrotechnic material, the formation of the pyrotechnic coating of the adapter 25 is performed by spraying a liquid mass of pyrotechnic material onto its base.

After separate subassembly of the adjusting ring 13, the front 11 and rear 12 fixed parts of the switch, after installing the obturators 33 in the grooves of the support ring and the rear 12 fixed part, install the adjusting ring 13 on the neck of the rear 12 fixed part, the front 11 fixed part on the tenon of the rear 12 fixed part, and the nut 32 on the top of the front fixed part, after which they are tightened with a given force and the nut 32 is locked by flaring the end of the top.

The assembly of the remaining parts of the ammunition and the connection of their parts are clear from the graphic materials.

The invention works as follows:

The ratchet mechanism ensures sectoral rotations of the adjustment ring performed by the shooter (the rotation step is determined by the step of the recesses of the ratchet belt formed on the end of the front 11 fixed part of the distance switch) and the retention of the adjustment ring 13 in the position specified by the shooter during the movement of the ammunition along the barrel of the weapon and the unsteady rotation during the movement of the ammunition toward the target.

When the safety cap is installed and the transition hole 20 of the adjusting ring 13 is located in the interval between the groove-free sections of the heat-insulating rings 23, 24, the primer 10 is protected from mechanical impact and the transfer of fire impact from the propellant charge 9 to the expelling charge 6 is blocked.

When the transition hole 20 of the adjusting ring 13 is located between the channels of the first 23 and second 24 thermal insulation rings (equivalently, between the fire-transfer channels of the front 11 and rear 12 fixed parts), linear transmission of the fire effect from the propellant charge 9 to the expelling charge 6 is ensured.

When the transition hole 20 of the adjusting ring 13 is located between the arcuate sections of the grooves of the first 23 and second 24 heat-insulating rings, a delay in the transfer of the fire effect from the propellant charge 9 to the expelling charge 6, determined by the design of the ammunition and the rotation of the adjusting ring 13 performed by the shooter, is ensured.

When preparing for a shot, the distance to the UAV to be hit is determined. Then, using the safety cap, the mark on the support ring (mark on the safety cap), the distance scale on the front fixed part of the switch, the hooks 28 of the support ring, the delay time of the triggering of the ejection charge 6 is set taking into account the tactics of using the UAV to be hit and ensuring the detonation of the ejection charge 6, for example, 10 ... 20 meters before the target. The safety cap is removed and the ammunition is placed in the barrel of the weapon, and after aiming, a shot is fired.

The primer 10 ignites the propellant charge 9, the combustion products of which are ejected through the channels 14 of the propellant charge body into the space of the weapon barrel located under the ammunition, act on the support ring and, ultimately, push the ammunition in the direction of the target. In this case, the support ring, acting through the washer of the adjusting ring 13, presses the adjusting ring 13 to the opposite sections of the end surface of the front fixed part; the frictional action of the first 19 and second 18 sealing pads additionally, in addition to the ratchet mechanism, brakes the adjusting ring 13.

At the end of the combustion process of the propellant charge 9, when the adjusting ring 13 is set to the “delayed” position, the pyrotechnic material ignites in the fire-conducting channel of the rear 12 fixed part of the switch, then in the groove of the second 24 heat-insulating ring, after which the flame force is transmitted through the transition hole 20 of the adjusting ring 13 into the groove of the first 23 heat-insulating ring, then into the fire-transmitting channel of the front 11 fixed part and ultimately to the ejection charge 6.

When the expelling charge is triggered, the container 4 is ejected with the separation of segments, with the simultaneous opening of the segments of the fairing 1, as a result of which an array of the GPE 4 moving towards the affected UAV and diverging into a cone is formed. If the ammunition is filled with powder materials and the expelling charge 6 is formed with a charge of black powder, the ejection of the GPE is accompanied by an ejection of an array of dispersed particles directed towards the UAV, which somewhat reduces the contrast of the image formed in front of the UAV operator, the source of which is the shooter and the environment surrounding the shooter.

Claims (7)

1. An ammunition for destroying unmanned aerial vehicles, comprising a cylindrical body in which a front part located in the direction of the shot and a rear part are distinguished, a plastic segmented fairing secured in the mouth of the front part of the ammunition body, a container formed in the form of a segmented cup installed inside the ammunition body with an offset towards the fairing, ready-made striking elements placed in the container, a distance switch secured in the rear part of the ammunition body, a wad located adjacent to the bottom of the container, an expelling charge located between the distance switch and the wad, and also a propellant charge, where the distance switch is made as a composite, containing an axially located front fixed part connected to the rear part of the ammunition body, a rear fixed part, and also an adjustment ring installed with the possibility of rotation relative to the longitudinal geometric axis of the ammunition, located between the front and rear fixed parts of the distance switch, characterized in that the distance switch is made with a cylindrical mounting hole coaxial to the longitudinal geometric axis of the ammunition, formed in the end of the front fixed part of the distance switch, a stepped projection formed on the end of the rear fixed part of the distance switch facing the fairing, and a nut, the stepped projection of the rear fixed part of the distance switch is made containing a neck, a spike and a threaded top arranged in series, starting from the side of the propellant charge, where the spike is formed with the formation of a double guide base for the front fixed part of the distance switch and is located, accordingly, in its mounting hole, the neck is formed with the formation of a double support base for the adjustment ring and is made traced, accordingly, through its hole, the top is formed with the protrusion of its threaded part from the mounting hole of the front fixed part from the side of the expelling charge, the nut is made located on the threaded part pommels, wherein the nut, pommel and neck are made with an axial force, regulated by the conditions of use of the ammunition, compression of the adjusting ring between the front and rear fixed parts of the distance switch, the distance switch is made equipped with parallel to the longitudinal geometric axis of the ammunition, through, mutually axial flame transfer channel of the rear fixed part, one of the mouths of which faces the propellant charge, and the other to the adjusting ring, and a flame transfer channel of the front fixed part, one of the mouths of which faces the adjusting ring, and the other to the expelling charge, the adjusting ring is made composite, containing a steel shaped washer, the diameter of which is greater than the outer diameter of the rear fixed part, mounted, with the possibility of rotation, on the neck of the projection of the rear fixed part of the distance switch, the washer of the adjusting ring is made equipped with a transition hole, made with the possibility of being located, in one of the possible positions an adjusting ring, in the interval between the flame-transfer channels of the rear and front fixed parts of the distance switch, the distance switch is made equipped with first and second heat-insulating rings, as well as first, second, third and fourth annular, coaxial to the longitudinal geometric axis of the ammunition, sealing pads, each of the heat-insulating rings is formed and installed with the formation of a channel axial to the flame-transfer channels of the front and rear fixed parts of the distance switch, as well as a C-shaped, coaxial to the longitudinal geometric axis of the ammunition, groove falling with one of its end sections into the channel of its heat-insulating ring, wherein the heat-insulating rings are formed and installed with a mirror arrangement of their grooves, the distance switch is made equipped with a ratchet mechanism containing in its composition a ratchet belt coaxial to the longitudinal geometric axis of the ammunition, formed by depressions located at an interval, formed on the surface of the front fixed part of the distance switch facing the adjustment ring, and at least two pawls formed integrally with the adjustment ring, each of which is designed in the form of a petal bent at an acute angle towards the ratchet belt, located with the possibility of interacting with one of the recesses of the ratchet belt and counteracting unauthorized rotation of the adjustment ring during rotation of the ammunition during firing and in flight, the distance switch is made equipped with a support ring coaxial to the longitudinal geometric axis of the ammunition, fixedly secured to the periphery of the adjustment ring on the side of the rear fixed part of the distance switch, wherein the support ring is made equipped with at least two hooks located on its surface opposite to the adjustment ring, any of which is formed in the form of a well, the distance switch is made equipped with a distance scale located on the front fixed part of the distance switch with an offset to its rear fixed part, and a mark located on the support ring, the ammunition is made equipped with a plastic quick-release safety cap, the end of which is provided with projections formed with the possibility of forming a kinematic pair with the hooks of the support ring, and the walls are formed with the possibility of holding the cap on the rear fixed part of the distance switch, protecting the primer from mechanical impacts, as well as turning the adjustment ring of the distance switch in the direction permitted by the ratchet mechanism, while the hooks of the support ring and the projections of the cap are made located with the possibility of unambiguous positioning of the cap relative to the distance scale, and the walls of the cap with the possibility of unambiguous determination of the location of the mark on the support ring. 2. The ammunition according to claim 1, characterized in that the first thermal insulation ring of the ammunition is made integrated into the composition of the front fixed part of the distance switch, the second thermal insulation ring is made integrated into the composition of the rear fixed part of the distance switch, the first and second sealing pads are made rigidly fixed on the washer of the adjustment ring on the side of the front fixed part, and the third and fourth sealing pads are made rigidly fixed on the washer of the adjustment ring on the side of the rear fixed part, wherein the first and third sealing pads are made formed and installed with their outer radial edges approaching the transition opening of the adjustment ring on the side of the neck of the rear fixed part of the distance switch, and the second and fourth sealing pads with their inner radial edges approaching the transition opening of the adjustment ring on the side of the periphery of the ammunition. 3. The ammunition according to claim 1, characterized in that the first and second heat-insulating rings are made integrated into the composition of the washer of the adjustment ring, where the first heat-insulating ring is made located on the side of the front fixed part of the distance switch, and the second heat-insulating ring is made located on the side of the rear fixed part of the distance switch, the first and second sealing pads are made fixedly fixed on the end face of the front fixed part facing the adjustment ring, and the third and fourth sealing pads are made fixedly fixed on the end face of the rear fixed part facing the adjustment ring, wherein the first and third sealing pads are made formed and installed with their outer radial edges approaching the transition opening of the adjustment ring from the side of the neck of the rear fixed part of the distance switch, and the second and fourth sealing pads with their inner radial edges approaching the transition opening of the adjustment ring from sides of the ammunition periphery. 4. The ammunition according to claim 1, characterized in that the first and second heat-insulating rings, as well as the first, second, third and fourth sealing pads are made integrated into the composition of the washer of the adjustment ring, where the first heat-insulating ring, the first and second sealing pads are made located on the side of the front fixed part of the distance switch, and the second heat-insulating ring, the third and fourth sealing pads are made located on the side of the rear fixed part of the distance switch, wherein the first and third sealing pads are made formed and installed with their outer radial edges approaching the transition opening of the adjustment ring from the side of the neck of the rear fixed part of the distance switch, and the second and fourth sealing pads with their inner radial edges approaching the transition opening of the adjustment ring from the side of the periphery of the ammunition. 5. Ammunition according to item 1, characterized in that the propellant charge is formed by a charge of black powder. 6. Ammunition according to item 1, characterized in that it is equipped with a mixture of powder materials of fractions of 1-10 microns, placed in a fairing and in a container together with ready-made striking elements, which, when the expelling charge is triggered, forms an aerosol cloud that reduces the observed range of brightness in the infrared regions of the spectrum. 7. Ammunition according to item 1, characterized in that the wad is made in the form of a pellet that breaks into fragments when ejected from the body of the ammunition, formed from a porous material prone to smoldering, impregnated with potassium nitrate.