RU2500977C2 - Remote action ammunition - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: proposed ammunition comprises case with explosive, fuse with power supply, electronic timer with primer capacitor connected via communication line with said power supply, inertial switch open in initial position, safety trigger arranged in said case and including rotor, rotor drive with pusher and igniter with its outputs connected with time output, and electric blasting cap. Electric circuit of said igniter comprises discharge circuit with interrupter closed in initial position connected parallel with ignition capacitor. Timed operation of interrupter and inertial switch is ensured.

EFFECT: higher safety.

4 dwg

Description

The invention relates to the field of armaments and can be used to bring ammunition, mainly multiple launch rocket systems, to a combat state.

Known fuse for missiles, shells, which contains an inertial contactor - a sensor that receives the input effects of longitudinal overloads and generates a command to start the delay time, a power source, an electronic-time device that counts the delay time, a safety cocking device. The safety-cocking device assembled in the housing has a rotor mounted on a fixed axis of rotation, a rotor rotation drive made in the form of a starting electric igniter with a mechanical pusher-bellows. The initial firing element, an igniter, is located in the rotor. The rotor is made in the form of a rotary disk. In the initial position, the igniter rotor is rotated and breaks the fire chain. After counting the delay time, the rotor is driven by the drive and locked in the cocked position with a lock made in the form of a spiral spring (US patent No. 5585592, MHK: F42C 15/42, F42C 17/00, publ. 17.12.1996).

The disadvantage of this fuse is the lack of control of longitudinal overloads on the flight path of the projectile, namely, fuse cocking on an electric circuit occurs regardless of the presence of longitudinal overloads at the end of the delay time, and the starting electric igniter of the drive rotating the rotor can be involved in case of malfunctions arising in the electric circuit . This reason reduces the reliability and safety of its use in shells of multiple launch rocket systems.

Known fuse for shells (patent RU No. 2249176, IPC F42C 15/42, F42C 17/00, publ. 03/27/2005 - prototype) containing an inertial contactor, power source, electronic-temporary device, safety cocking mechanism in the housing, containing a rotor, an initial firing element — an ignitor and a rotor rotation drive with a starting electric igniter, an inertial spring-loaded stopper, which is the axis of rotation of the rotor. The findings of the starting electric igniter are connected to the output of the electronic-temporal device, which provides the countdown of the delay time of the fuse. The stopper is made of stepped cylindrical shape with geometrically connected protrusions of a rectangular shape at the ends. The stopper held by the spring, the upper part enters an elliptical hole in the housing of the safety-cocking mechanism, thereby preventing the rotation of the rotor in service and emergency situations. The lower part of the stopper enters the groove of the rotor made in its lower part on a protrusion of a cylindrical shape. This ensures the connection of the rotor and stopper and the possibility of only joint movement. The rotor enters the protrusion into the opening of the housing. This protrusion provides alignment of the rotor-stop system.

The disadvantage of this fuse is the lack of control of longitudinal overloads at the time of activation of the starting electric igniter of the drive rotating the rotor, i.e. at the end of the delay time, the electronic time device. And, therefore, it is possible to start an electronic-temporary device from an inertial contactor with a short-term action of longitudinal overloads, and then after counting the delay time, start the electric igniter of the rotor drive. The specified reason reduces the reliability of the fuse.

The challenge in this technical field, the solution of which the proposed technical solution is directed, is to create an ammunition that has increased effectiveness in hitting a target, safety in official handling and reliability of combat use.

The solution to this problem is achieved by the fact that the proposed remote-controlled ammunition, according to the invention, contains a housing with an explosive, a fuse, in the housing of which an inertial contactor, a power source, an electronic-temporary device including an ignition capacitor, a safety cocking mechanism are located in the housing and containing a rotor, a rotor drive with a starting electric igniter and a pusher, an electric detonator, and the conclusions of the starting electric igniter are connected to the electronic-time device, and the contacts of the inertial contactor are connected to the input of the electronic-time device, while the electric circuit of the starting electric igniter contains a discharge circuit with a disconnector closed in its initial position, mounted parallel to the ignition capacitor, while between the inertial contactor and the disconnector in the specified discharge igniter capacitor circuit of the electric igniter a rigid functional connection is established, ensuring their one-time circuit / open Ie.

The technical result achieved by the claimed invention is the creation of ammunition, the loading of which is carried out only with continuous longitudinal overload, the value of which is not lower than the level characteristic of the shot, for a set delay time of cocking.

The technical result is achieved by the fact that in the proposed munition containing a housing with an explosive, a fuse, in the housing of which an inertial contactor, a power source, an electronic-temporary device, a safety-executive mechanism in the housing, including a rotor, an electric detonator, an electric igniter and a pusher, which is a rotor drive of the rotor, according to the invention, a bit is introduced in the electric start circuit of the electric igniter of the rotor drive parallel to the ignition capacitor circuit with a breaker, which is closed in the initial position, and the simultaneous operation of the breaker and inertial contactor under the action of longitudinal overload is ensured.

The inventive device ensures that the ammunition is put into a combat position only when the condition is met: continuous action of longitudinal overloads for the entire set delay time for starting the electric igniter.

The invention is illustrated by drawings, where Fig. 1 is a structural diagram of an ammunition fuse, Fig. 2 is a general view of the construction of a safety cocking mechanism in its initial position, Fig. 3 is a sectional view A-A, in Fig. 4 is an electrical timing delay driver circuit.

Ammunition containing a housing 1 with explosive 2, a fuse 3, in the housing of which an inertial contactor 4, a power source 5, an electronic-temporary device 6, a safety-cocking mechanism 7, a detonator 8 are placed.

The safety-cocking mechanism 7 includes a rotor 9, a housing 10, in which an electric detonator 11 is placed and a rotor rotation drive consisting of a starting electric igniter 12, on which a cap 13 is mounted. The rotor 9 has the form of a disk sector with protrusions from the lower and upper sides, providing rotation around the vertical axis. In the initial position, the rotor 9 is fixed from turning by a check 14. In the cocked position, the rotor 9 is blocked, for example, by a latch of deformable material.

In the initial position, the firing circuit of the electric detonator 11 — the detonator 8 is broken by the displacement of the transfer charge 15 installed in the rotor 9 relative to the electric detonator 11 and the detonator 8.

The electrical circuit, ensuring the cocking of the safety-cocking mechanism 7, consists of an inertial contactor 4, a timer 16, a starting electric igniter 12, a breaker 17 and radio elements that ensure the operation of the circuit. The findings of the starting electric igniter 12 are connected to the output of the electronic-temporary device 6, which provides the countdown of the delay time of the fuse. The contacts of the inertial contactor 1 are connected to the input of the electronic-time device 6.

In the initial position, the circuit breaker 17 is installed in a position in which the discharge circuit of the ignition capacitor 18 is closed.

The operation of the device is as follows.

Before starting, the cocking delay time of the safety-cocking mechanism is set 7. The delay value entered must be less than the duration of the active section of the projectile trajectory. When starting, at the beginning of the active section of the trajectory under the action of longitudinal overloads, the inertial contactor 4 closes and the electronic-time device 6 starts the delay time. At the same time, the circuit breaker 14 breaks the discharge circuit of the ignition capacitor 18 of the start circuit of the electric igniter 12. At the end of the countdown of the set charging delay time, the output stage of the electronic-temporary device supplies voltage to the starting electric igniter 12, the electric igniter 12 starts, the rotor 9 rotates, cutting the pin 14, the safety cock mechanism 7 is moved to the cocked position.

In the event of an abnormal operation of the inertial contactor 4, the timer 16 is started, the circuit breaker 17 is also triggered, but in this case the duration of the longitudinal overload is much less than the time of its operation in combat use, i.e. the inertial contactor 4 opens until the end of the set time delay, at the same time, the disconnector 17 closes the discharge circuit and the ignition capacitor 18 is discharged. The start of the electric igniter 12 is blocked.

Using the proposed technical solution will allow you to create a design of ammunition, cocking which is ensured only after the countdown of the set time delay and subject to longitudinal overloads over the entire time interval of the countdown of the set time delay.

The positive effect achieved during the implementation of the invention is expressed in increasing the reliability of the combat use of ammunition and safety during official handling.

Claims (1)

Remote-controlled ammunition, characterized in that it contains a housing with an explosive, a fuse including a power source, an electronic-temporary device containing an ignition capacitor connected to the power source by a communication line on which an inertial contactor, open in the initial position, is installed, a cocking mechanism located in the housing and containing a rotor, a rotor rotation drive with a pusher and a starting electric igniter, the terminals of which are connected to the output electronically -temporal device, an electric detonator, while the electric circuit of the starting electric igniter contains a discharge circuit with a circuit breaker closed in its initial position, mounted parallel to the ignition capacitor, and a synchronized operation of the circuit breaker and inertial contactor is provided.

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