RU2386922C1 - Air bomb of fuel and air explosion - Google Patents

Abstract

FIELD: weaponry and ammunition.

SUBSTANCE: bomb consists of cylinder case with compartment for liquid filling with opening pressure tight closed with plug for liquid filling; also case has opening for air discharge at filling closed with sealed choke and through cavity. A height finder and a flash fuse are arranged on one side of the cylinder case in the through cavity; notably, the flash fuse initiates ignition of a charge; on the other side of the cylinder case there is installed a container with a parachute and stabilisers. Several nozzles are made from the side of the height finder in the cylinder case; the nozzles are united with a collector cavity separated from the compartment for liquid filling by means of a partition with a membrane. Axis of nozzles are perpendicular to symmetry axis of the cylinder case. At least one channel is made from the side of the container in the cylinder case; axis of the channel is perpendicular to symmetry axis of the cylinder case; the channel communicates the internal through cavity with the compartment for liquid filling. A back valve closing both channels is installed in the internal through cavity. An initiating charge secured to parachute shrouds is installed in the container with the parachute.

EFFECT: creating particles of specified dispersion increasing killing effect of air bomb.

3 dwg

Description

The invention relates to military equipment and can be used to defeat enemy manpower, concealed enemy firing points, disable lightly armored and automotive vehicles.

The well-known "Method of protecting personnel, weapons and military equipment in front of the enemy’s leading edge and ammunition for its implementation" according to the RF patent for invention No. 2278347, IPC F42B 5/15, 2006, in which smoke clouds are placed in the area of the enemy’s location, this through the use of combustible materials additionally carry out the installation of a thermal curtain that reduces the efficiency or blocks the operation of thermal imaging equipment of reconnaissance equipment and systems for guiding ammunition to the target. The munition contains a housing with a bottom in which the equipment is located, an expelling charge from smoke or smokeless powder with an igniting device, the equipment being made in the form of a rapidly expanding foaming composition, two threaded holes are made in the housing or bottom, one of which is tapered and connected to the channel in which a spring-loaded ball is placed, and a movable threaded plug is placed in the second hole, the cavity of the second hole in the location of the plug being communicated through an additional cash with the external environment.

The disadvantage of this method of protecting personnel, weapons and military equipment in front of the front edge of the enemy and the ammunition for its implementation is the inability to obtain particles of foam of a certain dispersion due to the fact that the foaming composition is ejected immediately from the entire shell of the ammunition when the bottom is opened and the foam-forming composition disperses chaotically.

Known "Incendiary bomb" according to the patent of the Russian Federation for the invention No. 2284461, IPC F42B 25/00, 2006, adopted as the closest analogue. Incendiary bomb includes a housing, fuse, incendiary and igniter compositions, explosive charge. The housing is made in the form of a cylindrical shell rigidly connected to the sleeve in the form of a cup, in the cavity of which an igniter composition and an explosive charge adjacent to the sleeve are coaxially placed, and an incendiary composition is placed in the cavity between the housing shell and the sleeve.

A disadvantage of the known incendiary bomb according to the patent of the Russian Federation for invention No. 2284461 is the inability to obtain particles of igniter and incendiary compositions of a certain dispersion due to the fact that particles of these compositions are formed upon destruction of the bomb body under the action of detonation products of a bursting charge.

The claimed invention has the task of obtaining particles of a certain dispersion when spraying liquid equipment, increasing the damaging effect of an aircraft bomb.

The problem in the claimed invention is solved due to the fact that the aircraft volumetric explosion bomb contains a cylindrical body with a compartment for liquid equipment with a hole for refueling, a hermetically sealed plug, and an air outlet for refueling, a hermetically sealed plug, and with an internal a through cavity in which on one side of the cylindrical body an altimeter and an igniter of the powder checker mounted on the diaphragms are installed, and on the other side of the cylindrical body - a container with a parachute and with stabilizers, while in the cylindrical case on the altimeter side several collector cavities are made, separated by a partition with a membrane, from the compartment for liquid equipment, the nozzles whose axes are perpendicular to the axis of symmetry of the cylindrical body, from the side of the container with a parachute in a cylindrical case made at least one channel connecting the internal through cavity with a compartment for liquid equipment, the axis of which is perpendicular to the axis of symmetry of the cylindrical of the body, in the internal through cavity there is a non-return valve that can block this channel, and in the container with the parachute there is an initiating charge attached to the slings of the parachute.

The claimed invention differs from the well-known technical solution according to the RF patent for invention No. 2284461 in that in the cylindrical body on the altimeter side several collector cavities are made, separated by a partition with a membrane, from the compartment for liquid equipment, the nozzles whose axes are perpendicular to the axis of symmetry of the cylindrical body, side of the container with a parachute in the cylindrical housing is made at least one channel connecting the internal through cavity with a compartment for liquid equipment I, whose axis is perpendicular to the axis of symmetry of the cylindrical body in the inner cavity through a check valve, having a possibility of overlapping of the channel, and a container with a parachute mounted initiating charge, cords attached to the parachute.

The indicated difference made it possible to obtain a technical result, namely, it ensured the production of particles of a certain dispersion when spraying liquid equipment, which increases the damaging effect of an aerial bomb.

Figure 1 shows a section of an aircraft bomb of a volumetric explosion, a bomb is shown before the igniter is fired.

Figure 2 presents an aircraft bomb after dropping a parachute from a container.

Figure 3 shows a section of an aircraft bomb of a volumetric explosion, the bomb is shown after the igniter is fired.

The volumetric explosion aircraft bomb (Fig. 1) contains a cylindrical body 1 (Figs. 1-3) with a compartment 2 (Figs. 1.3) located in it for liquid equipment 3 (Figs. 1, 3) with an opening 4 (Fig. 1). 1.3) for refueling, a hermetically sealed plug 5 (Fig. 1, 3), and a hole 6 (Fig. 1, 3) for air outlet during refueling, a hermetically sealed plug 7 (Fig. 1, 3), and with an internal a through cavity 8 (Figs. 1, 3), in which an altimeter 9 (Figs. 1-3) and an igniter 10 (Fig. 1) of a powder checker 11 (Fig. 1) mounted on the diaphragms 12 are mounted on one side of the cylindrical body 1 (figure 1, 3), but with a friend on the other side of the cylindrical body 1 - a container 13 (Figs. 1-3) with a parachute 14 (Figs. 1, 2) and with stabilizers 15 (Figs. 1-3), while in the cylindrical casing 1 from the side of the altimeter 9 several united the collector cavity 16 (Fig.1, 3), separated from the compartment 2 for liquid equipment 3 by a partition 17 (Fig.1, 3) with a membrane 18 (Fig.1, 3), nozzles 19 (Fig.1-3), axis 20 (FIGS. 1, 3) of which are perpendicular to the axis of symmetry 21 (FIGS. 1, 3) of the cylindrical body 1, at least one channel 22 is made from the container 13 with a parachute 14 in the cylindrical body 1 (FIGS. 1, 3 ), connecting the internal through cavity 8 with the compartment 2 for liquid equipment 3, the axis 23 (Fig.1, 3) of which is perpendicular to the axis of symmetry 21 of the cylindrical body 1, a check valve 24 (Fig.1, 3) is installed in the inner through cavity 8 the overlap of this channel 22, and in the container 13 with a parachute 14 there is an initiating charge 25 (Figs. 1, 2) attached to the slings 26 (Figs. 1-3) of the parachute 14.

Sealing of the altimeter 9 in the internal through cavity 8 is carried out by the seal 27 (Fig. 1, 3), and the check valve 24 (Fig. 1, 3) by the seals 28 (Fig. 1, 3) and 29 (Fig. 1, 3).

The device operates as follows. A container 13 having stabilizers 15 is mounted on the cylindrical housing 1 of the aviation bomb (FIG. 1). A check valve 24 is installed in the inner through cavity 8 of the cylindrical housing 1 using seals 28 and 29. The liquid equipment 3 is loaded into the compartment 2 of the cylindrical housing 1 through the hole 4, air from the compartment 2 for liquid equipment 3 is removed through the hole 6. After filling the compartment 2 in the cylindrical housing 1, the hole 4 is hermetically closed with a stopper 5, and the hole 6 is hermetically closed t with a plug 7. A parachute 14 is placed in the container 13 and an initiating charge 25 is mounted, attached to the slings 26 of the parachute 14. Then, a powder checker 11, an igniter 10, and an altimeter 9 are installed on the diaphragms 12 and seals 27. 28 and 29 seal the internal through cavity 8 on both sides of the cylindrical body 1. After dropping from the carrier, such as an airplane, the aircraft bomb is oriented in space by means of stabilizers 15, that is, the altimeter 9 is directed to the surface of the earth and It consists in the work. At a certain height, at the command of the altimeter 9, a parachute 14 is thrown from the container 13, on the slings 26 of which an initiating charge 25 is drawn from the container 13 (Fig. 2). Upon reaching a predetermined height on command from the altimeter 9, an igniter 10 is triggered, initiating the ignition of the powder bomb 11. As a result of the burning of the powder bomb 11, an increased gas pressure is generated in the internal through cavity 8, which leads to the opening of the check valve 24 (Fig. 3). After opening the check valve 24, gas flows through channels 22 into the compartment 2 for liquid equipment 3, which leads to an increase in pressure in the compartment 2 and the membrane 18 installed in the baffle 17 of the cylindrical housing 1. The liquid equipment 3 flows from the compartment 2 into the collector cavity 16 , fills it and through the nozzle 19 there is a spray of liquid equipment 3. The nozzle 19 can be made, for example, in the form of cylindrical holes or in the form of a Laval nozzle. The diameter of the droplets formed during spraying is determined by the pressure in the collector cavity 16, the diameter and design of the nozzles 19. When spraying liquid equipment 3 through the nozzles 19, particles of a certain dispersion are formed, which are evenly distributed along the portion of the bomb's flight path, form a cloud of liquid-air mixture with a uniform distribution of the liquid phase over the volume of the cloud. At the end of the spraying process of the liquid equipment 3, on a command from the altimeter 9, the initiating charge 25 is attached to the lines 26 of the parachute 14. The initiating charge 25 is fixed on the lines 26 so that the initiating charge 25 is in the center of the cloud of the liquid-air mixture. Thus, the formation of a cloud of a liquid-air mixture with a uniform distribution of particles of a certain dispersion of liquid equipment 3 over the volume of the cloud makes it possible to increase the combat effectiveness of the bomb and increase the damaging effect on objects and manpower of the enemy due to more complete combustion of the liquid-air mixture when it is detonated.

The invention allowed to obtain a technical result, namely, it ensured the production of particles of a certain dispersion when spraying liquid equipment, which increases the damaging effect of an aerial bomb.

Claims (1)

A volumetric explosion aircraft bomb containing a cylindrical body with a compartment for liquid equipment with a fueling hole, a hermetically sealed plug, an air outlet for refueling, a hermetically sealed plug, and an internal through cavity in which on one side of the cylindrical body an altimeter and an igniter of the powder checker mounted on the diaphragms are installed, and on the other side of the cylindrical body there is a container with a parachute and with stabilizers, characterized in that the cylindrical housing on the altimeter side has several collector cavities separated from the liquid equipment compartment by a partition with a membrane, nozzles whose axes are perpendicular to the symmetry axis of the cylindrical housing, at least one channel is made on the side of the container with a parachute in the cylindrical housing, connecting the inner a through cavity with a compartment for liquid equipment, the axis of which is perpendicular to the axis of symmetry of the cylindrical body, about a twin valve with the possibility of blocking this channel, and in the container with a parachute there is an initiating charge attached to the slings of the parachute.

Images