RU2284452C1 - One-time bomb cluster - Google Patents

Abstract

FIELD: armament, in particular, aircraft cluster-no-container systems designed for destruction of targets of a wide range with various characteristics of vulnerability.

SUBSTANCE: the cluster has a body, two successively positioned echelons of war components tied up by clamps, provided with a device for their scatter and positioned around the central perforated tube with flanges with a gas generator positioned in its cavity. The cluster is provided with a device for control of action of the nose fuses of the war components, and the scattering device is made in the form of U-shaped metal plates interconnected by lateral sides with formation of a star-shaped shell, the lateral sides of the U-shaped plates are positioned in the gaps between the war components.

EFFECT: expanded list of targets destructed by the one-time bomb, cluster, enhanced specific efficiency, safety and reliability of cluster action, provided optimum zone of scattering of the war components.

17 cl, 5 dwg

Description

The invention relates to the field of weapons, namely to aircraft cluster-container systems designed to engage a wide range of targets with various characteristics of vulnerability.

The defeat of the entire list of targets is achieved through the use of single-use bomb elements of different action: cumulative, high-explosive, penetrating, incendiary, which leads to a significant increase in the range of RBCs and a decrease in their universality of action against targets.

In addition, the effectiveness of the destruction of area targets to a large extent depends on the area of the dispersion zone of combat elements and on the specific effectiveness of both the RBC and the combat element.

A known design of a cluster warhead, including a housing, a frame, combat elements and a device for their dispersion, made in the form of a central explosive charge placed in a cylindrical shell, with each combat element (group of elements) connected by a flexible connection to a fragment of the body of a given crushing (Patent US No. 3954060 dated 05/04/76).

The above technical solution has several significant disadvantages:

1. There is no universality of the action of the warhead on the targets hit.

2. As a rule, the duration of the impact of detonation products of a bursting charge on warheads is several microseconds, while warheads, based on the necessary speed of their dispersion, receive acceleration in the plane perpendicular to their longitudinal axis, of the order of 300,000 ... 500,000 m / s ² .

The impact on the combat element of these overloads leads, based on ensuring safety at the time of release, to a sharp increase in its overall mass characteristics, which, ultimately, leads to a decrease in the specific effectiveness of the combat element and its delivery vehicle.

3. It does not allow, without further complicating the design of the cartridge, to use fuses with usually high specific characteristics to equip combat elements with a pyrotechnic launch.

4. The possibility of self-detonation of the explosive charge of the combat element at the time of its ejection from the cartridge is not ruled out.

A known embodiment of the cartridge warhead containing the hull, frame, combat elements and a device for their dispersion, made in the form of pushers placed in a central perforated tube of the frame (US Patent No. 3295444 from 01/17/07).

The disadvantages of this design of the cluster warhead should include:

- the lack of universality of the action of a cluster warhead against targets;

- the need to perform pushers according to the number of combat elements used to equip the cartridge, which greatly complicates the design of the cartridge and increase its overall mass characteristics;

- in the case of a radial ejection of combat elements placed in the cartridge parallel to its longitudinal axis, an almost point load is applied to the combat element at the time of its ejection, which leads to the need to strengthen its body and components, and therefore, to reduce the specific effectiveness of the combat element and cassettes;

- a relatively small stroke of the pusher (equal to the thickness of the central pipe) does not allow for the ejection rate of the combat element sufficient to form the optimal dispersion zone, which, ultimately, reduces the effectiveness of the system.

A known embodiment of the ejection system of the combat element from the container, which is a coaxially located, expanding under the influence of the pressure of the powder gases shell, forming the internal and peripheral cavities, each of which contains a gas generator (German Patent No. 3026159 from 07.10.80).

The technical solution given, although it allows to increase the piston stroke and, consequently, to increase the ejection speed of the combat element, has a number of significant disadvantages:

- there are no technical solutions for varying the time of the effect of efforts on the combat elements at the time of their ejection from the cartridge, which does not allow to expand the range of the ejection speed, and therefore, to ensure the optimal dispersion zone of the combat elements

- low specific efficiency of the container (cartridge) due to the need to place external cavities, the number of which is equal to the number of combat elements;

- low reliability indicators of the device for ejection of combat elements (it is possible to compress the combat element with a shell restricting the external cavity, with its subsequent destruction and bleeding of gases);

- the complexity of the design (it is necessary to have a central gas generator and gas generators located in the outer cavity of the shell);

- it is practically impossible to ensure the tightness of such a shell from the ends, especially at the time of its expansion, which can lead to a breakthrough of gases into the cavity of combat elements, and therefore, the reliability of the container’s action will sharply decrease, and the dispersion zone of combat elements will decrease.

A known embodiment of a cartridge warhead containing a housing, combat elements arranged in several rows, an ejection mechanism for combat elements with an expelling charge, made in the form of an inflatable balloon located along the central axis and mechanically connected to a container that is connected via an inlet valve to the expelling charge (German Patent No. 2920347 dated 05/19/79, US Patent No. 3865034 dated 02/11/75).

The technical solution provided provides a “soft” ejection of combat elements from the cartridge (overloads exceed 100 ... 200 units), which allows to increase the specific characteristics of the combat element and cartridge.

The disadvantages of this design of the cluster warhead should include:

- lack of universality of action against targets;

- relatively low indicators of reliability of action (there may be cases of destruction of the cylinder in the gaps between the combat elements due to the uneven distribution of external pressure around the perimeter of the cylinder);

- low coefficient of efficiency of the expelling charge due to the lack of guides during the ejection of combat elements;

- significant design complexity (stringent requirements for sealing the cylinder at the time of its expansion, for regulating the process of filling the cylinder with gas, it is necessary to have additional capacity, inlet valves, etc.);

- in the case of the manufacture of a cylinder from a sufficiently rigid elastic material, it is impossible to provide a large stroke during its expansion, which, ultimately, can lead to a decrease in the dispersion zone of combat elements, and therefore to a decrease in the effectiveness of the cartridge;

- in the case of the use of a rubber balloon with a corrugated shell (US Patent No. 3865034), it is possible to destroy the balloon at the ends of the shell and vent the gases into the cavity of the combat elements.

The closest analogue of the invention is a device for dispersion at different speeds in the radial direction of small shells (US Patent No. 3938439 from 1976 - prototype).

The specified device is a casing in which small shells pulled together by a light bandage are placed in several rows. Rows are divided among themselves by flanges (bases). Under the lower row of shells, a gas generator is installed, during operation of which the produced gas enters a vertical perforated pipe passing through the entire device through nozzle openings located at the level of each row and having a progressively changing diameter. Around the holes of the vertical pipe are rubber diaphragms, hermetically connected to the pipe at the junction with the base.

The gas produced by the gas generator acts on the rubber diaphragms with a force sufficient to break the light bandage in each row of shells, while the shells spread in the radial direction at different speeds.

The technical solution presented allows to significantly cool the gas generated by a generator located outside the perforated pipe volume before it acts on the rubber diaphragms, and the presence of a low-strength bandage, which requires little effort to destroy, allows for the dispersion of shells at a low speed.

The disadvantages of this technical solution include:

1. In the materials of the patent there is no description of the site of sealing rubber diaphragms in the places of their attachment to the perforated pipe, which can lead to a significant complication of the design of the device.

2. Due to the need for preliminary cooling of the gas used to pressurize the rubber diaphragm, the gas generator is placed in its own volume, outside the volume of the vertical perforated pipe, which leads to a sharp increase in the volume of the cartridge warhead and, consequently, to a decrease in the specific efficiency of the cartridge (for given dimensions and the weight of the cartridge).

3. The absence of guides for the ejection of shells, as well as the relatively low strength of the constricting band, do not allow to obtain a velocity of ejection of shells sufficient to ensure an optimal dispersion zone of the shells, which reduces the effectiveness of the cartridge.

4. Relatively low indicators of reliability of action (there may be cases of destruction of the rubber diaphragm both in the places of its attachment to the perforated pipe, and in the spaces between the shells due to the uneven distribution of external pressure around the perimeter of the diaphragm).

5. The inability to engage fuses of shells having the pyrotechnic principle of cocking due to the supply of chilled gas to the central pipe.

6. The inability to engage projectile fuses with controls for their action (there is no universality of the device).

The task of the invention is to increase the efficiency and versatility of the action of RBC on the targets.

The technical result consists in expanding the list of targets struck by RBC, increasing the specific effectiveness, safety and reliability of the action of RBC, as well as in ensuring the optimal dispersion zone of combat elements.

The technical result is achieved by the fact that the RBC contains a body, two successive echelons of combat elements, tightened by clamps, equipped with a dispersion device and placed around a central perforated pipe with flanges in the cavity of which a gas generator is located, while the RBC is equipped with a control device for the action of head fuses of military elements and the scatter device is made in the form of gutter-shaped metal plates interconnected by lateral sides with the formation of a star-shaped glasses, wherein the sides of trough plate placed in between submunitions.

The expansion of the list of targets struck by RBC is achieved by supplying the RBC with a device for controlling the action of head fuses of combat elements, which ensures the operability of the head fuse with the surface action of the combat element and blocks its operation when the combat element penetrates (in this case, the bottom fuse with a delay device), which, ultimately, significantly increases the versatility of the cartridge.

Ensuring the optimal dispersion zone of combat elements is achieved by performing a scatter device in the form of a star-shaped shell with the lateral sides of the groove-shaped plates placed between the combat elements, which can significantly increase the stroke of the piston (trough) and, therefore, provide the possibility of variation over a wide time range of the impact of forces on combat elements at the time of their ejection from the cartridge.

The implementation of a star-shaped shell of metal trough-shaped plates connected to each other by the lateral sides, allows to reduce the metal consumption of the shell, and consequently, the mass characteristics of the device dispersion of combat elements and, ultimately, increase the specific effectiveness of the RBC.

Improving the safety and reliability of the RBC is achieved by eliminating the possibility of collision of combat elements at the time of their ejection from the cartridge, since the application of the velocity vector occurs only in one radial plane passing through the longitudinal axis of the trenches of the star-shaped shell and combat elements.

In RBC, the control device for the action of the head fuses of military elements can be placed on the outer end of each flange adjacent to the head parts of the military elements, and is made in the form of an annular groove, a piston cover, and fasteners movably connected to the head fuses with calibrated jumpers connecting the piston cover to the end face of the flange with the formation of the combustion chamber, gasdynamically associated with an electric igniter.

Such a design of the control device for the action of the head fuses of warheads, in which the flange adjacent to the warheads of the warheads simultaneously serves as a support element for the train of warheads and the combustion chamber of the powder charge of an electric igniter, which significantly reduces the overall mass characteristics of the RBC, and therefore increase its specific efficiency.

The connection of the piston cap with the flange using fasteners movably connected to the head fuses with calibrated jumpers allows to reduce the dispersion of efforts when separating the piston cap, thereby increasing the reliability of the action of the control device for the action of the main fuses of military elements and RBC in general.

In RBC, the flanges adjacent to the warheads of the warheads can be made with through radial grooves under the head fuses of warheads, which will simplify its design and reduce the complexity of the assembly.

In RBC, the flanges adjacent to the bottom of the warheads can be made with radial channels, gasdynamically connected with the bottom fuses of warheads and a gas generator, which will expand the range of warheads used to equip RBC, and significantly simplify the design of the warhead through the use of bottom pyrotechnic fuse.

RBC can be equipped with two supports for each star-shaped shell of the dispersion device of combat elements, while each support can be rigidly fixed to the central perforated pipe and made with profiled sockets on the outer cylindrical surface, which will allow you to use the star-shaped shell of the dispersion device as a lodgement for placing combat elements, the pusher and the guide when they are scattered, thereby increasing the specific efficiency of RBC.

In RBC, the longitudinal axes of the warhead elements of the head echelon can be shifted relative to the longitudinal axes of the warheads of the tail echelon by an angle of 360 ° / n, where n is the total number of warheads, which will increase the safety of bombing by eliminating the possibility of collision of warheads on an autonomous flight path.

In the RBC, the gas generator may contain two powder charges interconnected by a fire chain and spaced along the central perforated tube, each powder charge may be equipped with a retardation device, and the tail powder charge may be additionally equipped with an electric igniter, which will increase the reliability of initiation of ground fuses of military elements, since the pyrotechnic impulse is first supplied to the pyrodetectors of the bottom fuses, and then after a certain period of time - by Zbros combat elements.

In RBC, the central perforated pipe can be made of two parts interconnected by the body of the head powder charge, which will reduce the complexity of its manufacture.

The possibility of industrial application is due to the specific implementation of the invention, characterized by the following structural scheme.

Figure 1 shows a General view of the RBC.

Figure 2 shows the placement of fuses of combat elements in the grooves of the flange.

Figure 3 shows a device for scattering combat elements.

Figure 4 shows the gas-dynamic connection of the combustion chamber of the device for controlling the action of the head fuses with an electric igniter.

5 shows a device for controlling the action of head fuses.

RBC consists of a housing 1, a frame in the form of two echelons of combat elements 2, including head 3 and bottom 4 fuses, clamps 5, dispersion devices 6 made of gutter-shaped plates, a central perforated pipe 7, flanges 8 adjacent to the head parts of the combat elements and made with through radial grooves 9, flanges 10 adjacent to the rear parts of the combat elements and made with radial channels 11, the device controls the action of the head fuses, made in the form of an annular groove 12, the piston cover 1 3, fasteners 14, mobile connection 15, an electric igniter 16, a gas generator consisting of a head powder charge 17, a tail powder charge 18 and an electric igniter 19.

The work of RBC is as follows.

At the time of the RBC reset from the carrier, the program of its functioning is electrically set on the software-switching mechanism, which at specified intervals issues electric commands to the RBC actuators.

Initially, the command to commission the brake device passes.

Then, when using RBC according to the superficial action scheme, a command is issued to the electric igniter 16, when triggered, a break occurs along the calibrated jumpers of the fasteners 14, the piston cover 13 is removed and the locking mobile connection 15 is released.

The following command is issued to separate the housing 1 and remove it from the frame.

The next command is issued to the electric igniter 19, when triggered, the tail powder charge is activated 18. As a result of the powder charge 18, the bottom fuses 4 of the combat elements 2 of the tail echelon are activated, and after a certain period of time, the head powder charge 17 and the bottom fuses of 4 combat elements 2 head echelon.

In addition, the powder gases of the charges 17, 18 through the openings of the central perforated tube 7 enter the star-shaped shells of the dispersion devices 6, which are straightened, forming a surface close to cylindrical, thereby scattering combat elements in the radial direction at a given speed.

When the combat element approaches the obstacle, the retractable element of the head fuse 3 is activated, which uses an explosive charge through the detonator.

In case of failure in the action of the head fuse 3 after a predetermined period of time, the bottom fuse 4 is triggered, which initiates an explosive charge.

When using RBC according to the penetrating action, an electric command is not given to the electric igniter 16, while the blocking mobile connection 15 breaks out from the head fuses 3 of the combat elements 2 and their blocking occurs (the head fuses do not function).

Next - the work of RBC according to the scheme of superficial action.

When approaching the obstacle, the head fuse 3 of the combat element 2 is deformed when passing through a solid obstacle without involving an explosive charge. After a specified period of time necessary for the penetration of the combat element beyond the obstacle, the bottom fuse 4 is triggered, which initiates an explosive charge.

The performance of the proposed design of a one-time bomb cluster equipped with universal high-explosive fragmentation warheads is confirmed by calculations and experimental tests of the cartridge and warhead in ground and flight conditions.

Claims (17)

1. A one-time bomb cartridge, containing a housing, successively arranged echelons of combat elements pulled together by clamps, equipped with a dispersion device and placed around a central perforated pipe with flanges, in the cavity of which a gas generator is located, characterized in that it contains two echelons of combat elements, combat elements equipped with head fuses, the cartridge is equipped with a device for controlling the action of the head fuses of combat elements, and the dispersion device is made in the form of metal-shaped grooves x plates interconnected by the sides with the formation of a star-shaped shell, while the sides of the trough-shaped plates are placed in the gaps between the combat elements. 2. The cartridge according to claim 1, characterized in that the control device for the action of the head fuses of the combat elements is located on the outer end of each flange adjacent to the head parts of the combat elements, and is made in the form of an annular groove, a piston cover and movably connected with head fuses fasteners with calibrated jumpers connecting the piston cover to the end face of the flange with the formation of a combustion chamber gasdynamically connected with an electric igniter. 3. The cartridge according to claim 1 or 2, characterized in that in it flanges adjacent to the warheads of the combat elements are made with through radial grooves under the head fuses of warheads, and flanges adjacent to the bottom of the warheads are made with radial channels gasdynamically associated with bottom fuses of combat elements and with a gas generator. 4. The cartridge according to claim 1 or 2, characterized in that it is provided with two supports for each star-shaped shell of the dispersion device of combat elements, each support being rigidly mounted on a central perforated pipe and made with profiled sockets on the outer cylindrical surface. 5. The cartridge according to claim 3, characterized in that it is provided with two supports for each star-shaped shell of the dispersion device of combat elements, each support being rigidly mounted on a central perforated pipe and made with profiled sockets on the outer cylindrical surface. 6. The cartridge according to claim 1 or 2, characterized in that in it the longitudinal axes of the combat elements of the head echelon are offset relative to the longitudinal axes of the combat elements of the tail echelon by an angle of 360 ° / n, where n is the total number of combat elements. 7. The cartridge according to claim 3, characterized in that in it the longitudinal axes of the combat elements of the head echelon are offset relative to the longitudinal axes of the combat elements of the tail echelon by an angle of 360 ° / n, where n is the total number of combat elements. 8. The cartridge according to claim 4, characterized in that in it the longitudinal axes of the combat elements of the head echelon are offset relative to the longitudinal axes of the combat elements of the tail echelon by an angle of 360 ° / n, where n is the total number of combat elements. 9. The cartridge according to claim 5, characterized in that in it the longitudinal axes of the combat elements of the head echelon are offset relative to the longitudinal axes of the combat elements of the tail echelon by an angle of 360 ° / n, where n is the total number of combat elements. 10. The cartridge according to claim 1 or 2, characterized in that the gas generator contains two powder charges interconnected by a fire chain and spaced along a central perforated tube made of two parts interconnected by a head powder charge body, each the powder charge is equipped with a delay device, and the tail powder charge is additionally equipped with an electric igniter. 11. The cartridge according to claim 3, characterized in that the gas generator contains two powder charges interconnected by a fire chain and spaced along a central perforated tube made of two parts interconnected by a head powder charge body, each powder charge equipped with a retarding device, and the tail powder charge is additionally equipped with an electric igniter. 12. The cartridge according to claim 4, characterized in that the gas generator contains two powder charges interconnected by a fire chain and spaced along a central perforated tube made of two parts interconnected by a head powder charge body, each powder charge equipped with a retarding device, and the tail powder charge is additionally equipped with an electric igniter. 13. The cartridge according to claim 5, characterized in that the gas generator contains two powder charges interconnected by a fire chain and spaced along a central perforated pipe made of two parts interconnected by a head powder charge body, each powder charge equipped with a retarding device, and the tail powder charge is additionally equipped with an electric igniter. 14. The cartridge according to claim 6, characterized in that the gas generator contains two powder charges interconnected by a fire chain and spaced along a central perforated tube made of two parts interconnected by a head powder charge body, each powder charge equipped with a retarding device, and the tail powder charge is additionally equipped with an electric igniter. 15. The cartridge according to claim 7, characterized in that the gas generator contains two powder charges interconnected by a fire chain and spaced along a central perforated tube made of two parts interconnected by a head powder charge body, each powder charge equipped with a retarding device, and the tail powder charge is additionally equipped with an electric igniter. 16. The cartridge of claim 8, characterized in that the gas generator contains two powder charges interconnected by a fire chain and spaced along a central perforated pipe made of two parts interconnected by a head powder charge body, each powder charge equipped with a retarding device, and the tail powder charge is additionally equipped with an electric igniter. 17. The cartridge according to claim 9, characterized in that the gas generator contains two powder charges interconnected by a fire chain and spaced along a central perforated tube made of two parts interconnected by a head powder charge body, each powder charge equipped with a retarding device, and the tail powder charge is additionally equipped with an electric igniter.

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