RU2166177C1 - Cassette nose cone - Google Patents

Abstract

FIELD: artillery jet ammunition. SUBSTANCE: cassette nose cone has a shell with a bottom, container with a flange and piston fastened to each other by a central tube, cassettes with military components with flap-type stabilization blocks, pistons, powder charges, boosting units and a timer. The cassettes are made in the form of guide tubes provided with launching devices with a detachable bottom and piston. The military components are oriented towards the cassette boosting unit and gasodynamically linked with the working cavities of the container through radial ducts in the guide tube, directed to the heat radiation sensors of the explosive devices. The launching device body is rigidly fastened to the guide, and the cassette piston is provided with a gas dynamic shield located in the stabilization unit and having a length exceeding the length of the flap cantilever. The cassettes are packed with the launching devices directed towards the container flange and provided with a frame and axial support. The frame is made in the form of a threaded ring secured in the body of the launching device, and the axial support is made in the form of a cylindrical diaphragm fastened to the guide by beading and having cross-shaped slots on the ends. The nose cone container is provided with stop laminar sectors positioned between the piston of the container and the cylindrical diaphragms of the guide tubes. EFFECT: enhanced reliability of functioning of ammunition, enhanced area of hitted target. 8 dwg

Description

 The invention relates to rocket technology, namely to the warheads of rockets, and can be used in the development of large-sized cluster warheads (KGCH) for unguided rockets of multiple launch rocket systems (NURS SZO).

One of the real ways to significantly increase the effectiveness of the NURS SZO when firing at areal targets is to use cluster-type warheads. In this regard, when creating KGCH designs, a number of problems arise before the developer, the main of which are:
- development of the layout scheme KGCH, providing tight packing and reliable fixation of combat elements (BE) in the container or cartridge, preventing the occurrence of shock loads on the structural elements during start, movement along the trajectory and opening of the warhead;
- reliable opening of KGCH with minimum power and thermal loads on the BE and kinematic units of the structure with the implementation of the forced dispersion of BE to the required area in order to fully utilize the combat qualities of each element separately.

 According to the application of Great Britain N 1406471 (class E 42 B 13/50, publ. 09/17/1975, ISM, issue 42, N 5, 1976) the design of cluster munitions is known.

 The warhead of the ammunition contains a support tray articulated with a conventional rocket engine. Launch tubes located around the circumference are articulated on a pallet. In the initial position, the launch tubes are in a tightly packed state. After dropping the cap, the launch tubes fan out at a certain installation angle. At the same time, pyrotechnic charges ignite, throwing out elements of military equipment placed in the launch tubes in the direction of the target. To ensure vertical descent of the warhead before ignition of pyrotechnic charges, braking devices can be used - drop-down shields or parachutes. In this case, a certain direction to the launch tubes can be imparted using wire braces connecting the fixed coupling mounted on the central pipe to the movable peripheral couplings.

 Theoretical analysis and preliminary structural study of a similar technical solution showed that for calibers of 220 mm or more, a very reliable fixation of the optimum opening angle of the launch tubes is necessary, because during the opening of the warhead due to the action of powerful aerodynamic and inertial forces, the launch tubes do not withstand the loads. An increase in the thickness of the walls of the pipes and their fixation elements in the structure leads to a significant increase in the passive weight of the warhead. This is especially pronounced at large angles of rotation of the launch tubes necessary for the implementation of significant areas of dispersion on the ground.

 Thus, the objective of this technical solution is to ensure the dispersion of combat elements on the ground at low speeds and power loads acting on the elements of the warhead.

 Common features with the design of the KGCH proposed by the authors are the presence of a shell with a bottom, cartridges with combat elements and powder charges.

 The closest in technical essence and the achieved technical result, namely, to increase the area of dispersion of BEs while reducing power loads on the elements of the warhead, is the design of the cluster warhead of a rocket projectile, known by RF patent N 2138763, publ. September 27, 1999 (IPC F 42 B 12/58).

 Cassette warhead contains a housing, aerodynamic fairing, cartridges with BE, powder charges and a temporary device. A container with a flange and a piston is installed in the housing. BE cartridges with shield-type stabilization blocks are fixed from radial movements by axial protrusions of a trapezoidal shape. At the same time, pistons are placed under the closing combat elements of the cartridges, made in the form of a glass with a powder charge, gas-dynamically connected with a transfer powder charge through a pyro-retarder.

However, this design of the warhead has some disadvantages associated with the presence of a number of negative factors, namely:
- with the presence of short-term shock loads on the cartridges with BE during the launch from the launch tubes of the combat vehicle and in the process of separation along the trajectory, which is associated with the formation of axial clearances between the piston and the cartridges during assembly;
- with a low speed of ejection of combat elements from guiding tubes made of thin-walled tubes that do not allow powerful power loads at the time of opening the cartridge;
- with the occurrence of local deformations of the guide tubes at the points of contact of the guide tubes with the supporting surfaces in the process of exiting the container;
- with the instability of the size of the area of dispersion of BE on the terrain, due to the instability of the installation angle of the cartridge when moving along the trajectory after opening the container.

 Thus, the objective of this technical solution (prototype) is to increase the area of dispersion of combat elements on the ground with relatively small loads on the structural elements of the warhead.

 Common features with the head part proposed by the authors are the presence of a shell with a bottom, a container with a flange and a piston fastened together by a central pipe, cartridges with military elements, powder charges, boost units and a temporary device.

 In contrast to the prototype, the cassette head of the cartridge proposed by the authors is made in the form of guide tubes and is equipped with starting devices. Combat elements in the pipes are oriented towards the forcing unit and are gasdynamically connected with the working cavities of the container through radial channels in the guide tube, aimed at the heat receivers of the explosive devices. The starter housing is rigidly fastened to the guide and is equipped with a removable bottom and a piston. The piston is equipped with a gas-dynamic screen located in the BE stabilization unit and having a length exceeding the length of the shield console. At the same time, the cassettes are stacked by launching devices in the direction of the container flange and are equipped with a frame and an axial stop, made respectively in the form of a threaded ring fixed in the end face of the starting device, and a cylindrical diaphragm with end cross-shaped grooves fastened to the guide by means of seaming. At the same time, the container is equipped with persistent plate sectors located between the container piston and the cylindrical diaphragms of the guide tubes.

 These distinctive features, to which the requested amount of legal protection applies, are substantial and sufficient to achieve a new technical result.

 The objective of the invention is to develop the design of the cluster head for long-range NURS SZO, requiring a significant increase in the area of dispersion of BE on the ground at significant speeds of the missile along the trajectory without increasing power loads on the structural elements of the head during the separation process.

The specified technical result is achieved by the fact that in the construction of a known warhead containing a shell with a bottom, a container with a flange and a piston fastened together by a central tube, cartridges with warheads with shield-type stabilization units, pistons, powder charges, boost units and a temporary device , introduced new nodes, a new set of structural elements, changed their relative position and relationship. In particular, the implementation of cartridges in the form of guide tubes and supplying them with starting devices with a removable bottom and a piston, the hardened cases of which are rigidly fastened to the guides, and the pistons are equipped with gas-dynamic screens located in the stabilization units and having a length exceeding the length of the shield console, allows:
- compose the BE in the cassette with the maximum packing density of the BE and exclude their axial movements in the cassette, which can lead to deformation of the BE casing or premature operation of explosive devices under the action of power loads during the opening of the cassette;
- increase the loading parameters of the cartridge and practically at the same dimensional and mass characteristics increase the speed of shooting of BE from guides and thereby increase the area of dispersion of BE on the ground and increase the effectiveness of ammunition by reducing the zones of overlapping areas of destruction of each BE separately;
- to exclude possible deformations of the structural elements of the cartridge (pipe, shields of the stabilization unit) located in the area of action of power loads, both during opening the container and during the shooting of the BE from the guide.

 Laying cartridges in a container, in which the launchers are located at the flange, and the combat elements are oriented towards the cartridge forcing unit, during the unsteady movement of the cartridges along the path, the center of mass is shifted to the heavier starting device and thereby ensure stable installation angles of the cartridges by the time autopsy, which ultimately reduces the possibility of collision of BE cartridges, reduces power loads on the stabilization units BE by reducing the speed by an amount close to the speed of firing BE from the cartridge, and also stabilizes the area of destruction of the ammunition.

 The supply of cartridges with a frame and axial stop, respectively made in the form of a threaded ring fixed in the housing of the starting device, and a cylindrical diaphragm fastened to the guide by means of seaming and resting on the container piston through the stacked plate sectors, excludes the movement of the cartridges in the container, axial and local radial deformation cartridges during the launch of the projectile from the launcher, and when opening the container, accompanied by powerful power loads in the process of operation charge of the compartment, as well as in the process of exit of the cartridges from the container, when due to large bending moments radial deformations of the ends of the cartridges can occur, which prevent the BE from leaving the guide tubes. In this case, the use of seaming as a forcing unit when shooting BE from the guide is the most appropriate for the proposed design solution, because In this case, favorable conditions for the arrangement of the guide tubes in a dense bundle, as well as a minimum variation in the force of forcing when opening the seaming, are realized. In addition, the implementation of BE gas-dynamic connections with the working cavities of the container in the form of radial channels in the guide tube directed to the heat receivers of explosive devices, as well as cruciform grooves on the end surfaces of the cylindrical diaphragm, improves the reliability of cocking of the military units of combat elements by eliminating stagnant zones in the locations WU heat receivers, achieved by active mixing of high-temperature gas jets entering radially (through channels in the guide tube) and sowing (via the central channel and the end cross-shaped grooves in the cylindrical aperture) directions of the areas of all the working container.

 The invention is illustrated by drawings, where in FIG. 1, 3 shows a longitudinal section of a cassette head; in FIG. 2 - cross section of the KGCh; in FIG. 4 - placement of persistent plate sectors; in FIG. 5, 6, 7 — longitudinal section of a cassette with BE; in FIG. 8 - placement of cruciform grooves.

 The head part includes a shell 1 with a bottom 2 and a container 3 made in the form of a flange 4 and a piston 5, fastened together by a central pipe 6. The container, in which the cartridges 7 with the combat elements 8 are stacked, is fastened to the bottom of the shell by means of a forcing unit 9 and is equipped with powder charges 10, 11 and a temporary device 12.

 The cassettes are made in the form of guide tubes 13 and are equipped with starting devices 14 with a removable bottom 15 and a piston 16.

 The combat elements in the cartridge are oriented by the explosive devices 17 towards the forcing unit of the cartridge 18 and are gasdynamically connected to the working cavities of the container C, D (filled with products of combustion of charges) by means of radial channels 19 in the guide tube directed to the heat receivers of the explosive devices.

 The cartridge piston is equipped with a gas-dynamic screen 20 located in the stabilization unit BE 21 and having a length exceeding the length of the console of the shield 22.

 The cassettes in the container are stacked by launching devices in the direction of the flange and equipped with a frame 23 and an axial stop 24. In this case, the frame is made in the form of a threaded ring fixed in the housing of the starting device, and the axial stop is in the form of a cylindrical diaphragm with crosswise grooves 25, 26 on the inner and outer ends.

 At the same time, the container is equipped with persistent plate sectors 27 located between the container piston and the cylindrical diaphragms of the guide tubes, and the cassettes are equipped with retardation devices 28 of a pyrotechnic type.

 Cassette head works as follows.

 At a given point in the trajectory, a temporary device 1 is activated and ignites the powder charges 10 of the container 3. The products of combustion of the charges through the radial channels in the central pipe 6, the guide 13 and the diaphragm 24 enter the working cavities of the container and the guide C, D, E, making use of the pyrotechnic retardant devices 28 and heat sinks of VU 17 of the combat elements 8. At the same time, through the throttle channel at the end of the central pipe, the outburst charge of the container 11 is ignited, the products The yellows of which fill the piston zone, and when a pressure equal to the pressure of the destruction of the forcing unit 9 is reached, the opening process begins, ending with the complete exit of the container 3 from the shell 2.

 Due to the action of the incoming air flow, the container is braked and the thrust lamellar sectors 27 are released from the pinching axial force from the side of the cassettes 7 and leave the container under the influence of gravity, aerodynamic and centrifugal forces (for a projectile rotating on the trajectory). Under the influence of the same force factors, the cartridges exit the container and autonomously move along the trajectory, first randomly rotating, and then, due to the displacement of the center of gravity due to the heavier starting device 14, take an oriented angular position in space, characterized by an installation angle.

 After a certain period of time necessary to reduce the speed of movement of the cassettes along the trajectory, the pyrotechnic retardation device 28 gives off an ignition pulse to the opening charge of the cassette, the combustion products of which fill the free space of the gas-dynamic screen 20. Under the action of pressure on the removable bottom 15, the piston 16 and the screen 20 occur the destruction of the unit forcing the cartridge (seaming guide 13 on the diaphragm 24), and combat elements are shot from the guide tubes. In this case, due to the oriented position of the pipes in space, it is possible, firstly, to prevent collision of BE at the moment of opening the cassettes, and, secondly, to reduce the rate of entry of the stabilization unit 21 into the incoming flow by the value of the speed of shooting of BEs and thereby reduce the maximum loads on the executive elements of the stabilization unit (in our case, cantilevered shields 22 of the "hard" stabilization unit).

 Under the action of the shooting speed, which reaches its maximum value only if a powerful launching device is used, combat elements are effectively scattered in the radial direction and in a stabilized position move towards the target.

 The stated positive effect is confirmed by the tests of prototypes of OGC made in accordance with the invention.

Claims (1)

 A cassette head containing a shell with a bottom, a container with a flange and a piston fastened together by a central pipe, cartridges with military elements with shield-type stabilization blocks, pistons, powder charges, boost units and a temporary device, characterized in that the cartridges are made in it in the form of guide tubes and equipped with starting devices with a removable bottom and a piston, combat elements are oriented towards the forcing unit and are gasdynamically connected to the working cavities of the container by means of radial channels fishing in the guide tube aimed at the heat sinks of the explosive devices, the launcher case is rigidly fastened to the guide, and the cartridge piston is equipped with a gas-dynamic screen located in the stabilization unit and having a length exceeding the length of the shield console, while the cartridges are laid by launching devices in the direction of the container flange, equipped with a frame and axial emphasis, respectively made in the form of a threaded ring fixed in the housing of the starting device, and a cylindrical diaphragm with end cross the grooves fastened to the guide by means of seaming, and the container is provided with persistent plate sectors located between the container piston and the cylindrical diaphragms of the guide tubes.

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