RU2615181C2 - Combinatorial fuse - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: platform for jet projectile fuse modular structure contains a housing, inside which there are connected between each other the power source, the inertial contactor, the remote setting-up unit of fuse action mode, the electronic unit of the trajectory active section parameters measurement, the fusing electronic control unit, the safety adapter, including electric blasting fuse, the safety closure, that prevents the detonation transmission from the electric blasting fuse to the blasting fuse in the office handling, the drive moving the closure with the electric ignitor, the noncontact target sensor, the contact target sensor, the electronic-time device, the blasting fuse. Functional units are adapted to replace them on their weight and size desired simulators ensuring interoperability between other functional units used depending on the desired characteristics of the fuse.

EFFECT: invention allows to form the fuse with an optimal set of functional units.

2 dwg

Description

The invention relates to the field of weapons, in particular to fuses of rockets.

Known ammunition of remote action (RF patent 2500977, IPC: F42C 11/04, F42C 9/14, publ. 12/10/2013), including a fuse, in the housing of which an inertial contactor, a power source, an electronic-time device including an ignition capacitor are placed, safety cocking mechanism located in the housing and containing the rotor, a rotor rotation drive with a starting electric igniter and a pusher, an electric detonator.

Known non-contact munitions with a remote laser fuse (RF patent 2484423, IPC: F42C 13/02, publ. 06/10/2013), in the housing of which a power source, detonator, safety-cocking mechanism and an optical target sensor connected to the specified mechanism are located.

Existing fuses, in particular for uncontrolled missiles, are characterized by the presence of multi-mode action: remote - triggering on the trajectory after a predetermined time interval, contact, contact with deceleration, non-contact - at a given distance from the target.

With the growth of requirements for rockets for accuracy, efficiency, functionality, the complexity of fuses increases, the cost of their design and development increases. At the same time, there is a fairly wide range of types of rocket ammunition, and each type of ammunition is intended for limited functional use. Thus, for each type of ammunition, either an appropriate fuse is needed, or a universal fuse is possible for a group of ammunition. But, in the case of installing a universal fuse, for example, on ammunition with only the actuation function on the trajectory, the functional components of the fuse that provide other modes of operation will certainly not be used.

The task in this technical field, to which the proposed technical solution is directed, is to create a fuse, the design of which allows the fuse to be formed in the manufacturing process with an optimal set of functional units that provide the modes of operation of a certain type of rocket, with a full set of functional units and options, their possible combinations allow the manufacture of fuses for a wide range of ammunition. Thus, by optimizing the design of the fuse — installing a set of functional units that provide the required modes of action for a particular type of ammunition, and eliminating devices that provide modes of operation not used in this type of ammunition, it is possible to reduce the cost of a fuse in each specific case of its use. This is possible due to the modular principle of constructing the design of the fuse based on functional modules.

The solution to this problem is achieved by the fact that the proposed combinatorial fuse for rockets, according to the invention, contains a housing inside which are connected a power source, an inertial contactor, a remote unit for setting the fuse action mode, an electronic unit for measuring parameters of the active section of the trajectory, an electronic control unit fuse detonation, safety-executive mechanism, including electric detonator, safety shutter, preventing per driving detonation from an electric detonator to a detonator in official circulation, a drive for moving the shutter with an electric igniter, a non-contact target sensor, a contact target sensor, an electronic-temporary device, a detonator, the aforementioned functional units being made with the possibility of replacing them with their bulk simulators, ensuring the required functional interaction between other functional units used, depending on the required characteristics of the fuse, while the fuse body is made of the concept of placing in its internal structural volume any set of all possible variants of sets of functional units that correspond to the set of required operating modes and characteristics of the fuse, while the part of the fuse body screwed into the shell is made from the condition that the fuse can be installed in a missile for use.

In an embodiment, the electronic blocks of the functional modules are connected through connectors, with each of the functional modules predominantly comprising electrical connectors providing electrical connections to the communication lines of adjacent functional modules.

In an embodiment, mass-size simulators of functional modules contain electrical connectors that provide the connection of electrical communication lines of adjacent functional modules.

In an embodiment, the functional module of the contact target sensor is made in the form of a capacitive type sensor, the specified module being installed in the head part of the fuse, while the head part of the fuse body is made of dielectric material.

In an embodiment, the functional module of the contact target sensor is made in the form of a reactive type sensor.

In an embodiment, the functional module of the non-contact target sensor is made in the form of a radio range finder, and the specified module is installed in the head part of the fuse, while the head part of the fuse body is made of radio-transparent material.

In an embodiment, the functional module of the non-contact target sensor is made in the form of an optoelectronic target sensor.

In an embodiment, the fuse comprises a mass-size simulator of a non-contact target sensor.

In an embodiment, the fuse contains a detonator made in a separate housing that is docked with the fuse housing, while the detonator housing has a ring-shaped explosive charge, a powder bomb with a pyro-igniter in the head, mounted in the central axial hole of the housing, and the height of the detonator housing made from the condition that the fuse part screwed into the projectile with the detonator connected to the depth of the installation hole of the projectile is used, while the executive mechanism further comprises an electric igniter for activating a pyro igniter of the powder checker, while the electronic fuse control unit further comprises a control module for said electric igniter.

The technical result achieved by the claimed invention is the creation of a universal platform that implements a combinatorial fuse design scheme, which allows the fuse to be formed at the manufacturing stage with the required set of operating modes by combining the corresponding functional modules and replacing the unclaimed functional modules with their weight and weight simulators.

The invention is illustrated by drawings, where in FIG. 1 shows a variant of the design of a combinatorial fuse with contact, non-contact modes of action; in FIG. 2 shows a design embodiment of a combinatorial fuse with mass-dimensional simulators.

The combinatorial fuse for rockets contains a housing 1, inside which functional modules are located: a power source 2, a detonator 3, a safety cocking mechanism 4, an inertial contactor 5, a contact sensor for the target 6, a non-contact sensor for the target 7, a remote setting unit for the mode of operation of the fuse 8, an electronic unit for measuring the parameters of the active section of the trajectory 9, an electronic control unit for detonating a fuse 10, an electronic-temporary device 11.

In an embodiment with a remote operating mode, the combinatorial fuse contains a housing 1, inside which functional modules are located: a power supply 2, a safety cocking mechanism 4, an inertial contactor 5, a remote control unit for setting the operating mode of the fuse 8, an electronic unit for measuring parameters of the active section of the trajectory 9, electronic fuse control unit 10, electronic-temporary device 11, an annular detonator 12, inside the case of which an annular charge 13 is mounted, a powder bomb 14, a pyro igniter 15, a mass-dimensional simulator 16 of the contact sensor of the target 6, mass-size simulator 17 of the non-contact sensor of the target 7.

Combinatorial fuse for rockets works as follows.

Previously, in the process of manufacturing a fuse, from a set of functional modules and mass-size simulators of functional modules, if necessary, a fuse is formed with the required set of operating modes for a certain type of missile. Then, immediately before the launch of the projectile, the fuse mode of operation of the fuse 8 is introduced into the fuse by means of the remote control unit for the mode of action of the fuse 8, and then, after the launch of the projectile, the fuse is operated in accordance with the established modes of action.

The proposed technical solution, which determines the combinatorial scheme for constructing the fuse as a universal platform and the modular principle of the execution of functional units, allows, through a combination of functional modules, replacing, if necessary, functional modules with their weight and size simulators, to form a fuse with the required set of operating modes during manufacturing, significantly reduce total costs, the cost of developing, testing, manufacturing a line of fuses for rockets various wow destination.

Claims (1)

Combinatorial fuse for rockets, characterized in that it contains a housing inside which are connected a power source, an inertial contactor, a remote control unit for setting the fuse action mode, an electronic unit for measuring parameters of the active section of the trajectory, an electronic fuse blast control unit, and a safety-actuating mechanism including electric detonator, safety shutter preventing the transfer of detonation from the electric detonator to the detonator in easy handling, an actuator for moving the damper with an electric igniter, a non-contact target sensor, a contact target sensor, an electronic-temporary device, a detonator, and the said functional units are made with the possibility of replacing them with their weight and size simulators, ensuring the required functional interaction between the other functional units used, depending on required fuse characteristics.

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