RU2399020C1 - Ordnance timer - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: fuse case with ring thread outer diametre D incorporates D₁-thick inner web. Fuse assembly units, i.e. detonating cartridge, safety-detonating device and electronic timer, are arranged below said web. The other elements of the fuse are arranged above said web. Diametres D and thickness D₁ are related by the following ratio, i.e. D=(2.0…7.0)D₁.

EFFECT: higher reliability of projectile burst.

1 dwg

Description

The invention relates to the field of military equipment and can be used in fuses mainly for cluster munitions of the barrel and rocket artillery when firing at a remote action.

The remote action of the fuse is characterized by its triggering on the trajectory after a predetermined time of the remote action from the moment of the shot. Remote fuses are used in high-explosive fragmentation, smoke, lighting and propaganda artillery ammunition.

In the past 25-30 years, remote fuses have found the most widespread use in cluster munitions of the barrel and rocket artillery for opening cartridges with warheads at a given point on the projectile trajectory. Ballistic, self-aiming and homing combat elements are used as combat elements in cluster shells. By the nature of the impact on the target, the combat elements can be fragmentation, high-explosive fragmentation, cumulative-fragmentation, and other types of action.

To improve the accuracy of counting the time of remote action in modern fuses, electronics are widely used. This allows you to fully realize the striking potential of cluster munitions, since the opening of the cartridge occurs at a given point on the trajectory.

The most widespread in recent years have been the leading remote electronic fuses. When triggered after a predetermined time of remote action, the head fuse gives an ignition pulse to detonate the expelling charge, which causes the destruction of the ammunition body and the ejection of cartridges with warheads in the direction of the projectile. These fuses are described in Armada International, 4/2002, pp. 64-70.

An analogue of the claimed invention is a German remote fuse DM52A1, developed by Junghans, which is used in the ammunition of a 155-mm self-propelled howitzer PzH2000 and is designed for smoke, propaganda and cluster shells, including shells with homing warheads. The design of the fuse DM52A1 contains a hollow body with a firecracker and a safety-detonating device placed in it. In the upper part of the case there is a backup type power supply, and above it an electronic temporary device.

The indicated source contains information about other remote fuses made according to the same structural design as the fuse DM52A1. Among them, the M9084 and M9220 fuses developed by Fuchs (South Africa), the 132 series fuses for 105- and 155-mm shells of the British company Royal Ordnance Control Systems and Fuse Division, Singapore's EF-784 fuse, etc.

Common features of the above analogues with the invention are the presence in their structures of the housing, firecrackers, safety-detonating device, power source and electronic temporary device.

The closest in technical essence and the achieved technical result to the claimed invention is the American fuse M762, taken by the authors as a prototype (see Jane's International Defense Review, May 2001, www.janes.com).

The design of the fuse M762 contains a hollow body, in which are placed a firecracker and a safety-detonating device. An ampoule backup type power supply and a ballistic cap are mounted in the upper part of the casing with the help of a union nut, inside of which the installation device and the electronic temporary device are placed.

On the trajectory after the set time of the remote action, the temporary device gives a command to operate the expelling charge in the projectile. After the expulsion of the expelling charge, the head of the projectile is destroyed and cluster warheads are ejected along the course of the projectile movement.

The disadvantage of the M762 fuse is the inability to use it in shells with the release of cluster elements in the direction opposite to the direction of movement of the projectile. The ejection of cluster elements in shells of this kind occurs under the influence of high pressure arising from the firing of the fuse and the explosive charge of the projectile at the time of destruction of the bottom of the projectile. A projectile with such an ejection of cluster elements provides a higher accuracy of elements, accuracy of hit and density of destruction of openly located targets in comparison with cluster munitions with a disclosure in the continuation of the trajectory.

The design of the prototype with a hollow body does not provide resistance to high pressure in order to prevent its etching through the fuse.

Common features with the invention in the fuse-prototype is the presence of a housing, a power source, firecrackers, safety detonating device, installation and electronic temporary devices.

The objective of the invention is the creation of a remote fuse that is resistant to high pressure that occurs when the firecracker fuse and expelling projectile charge when ejecting cartridge elements in the direction opposite to the direction of movement of the projectile.

This is achieved by the fact that in the design of the fuse, comprising a housing with an outer diameter of the spectacle thread D, a firecracker, a safety detonating device, a power source, an installation device and an electronic temporary device, the housing is made with an internal jumper of thickness D ₁ , with a firecracker located under the jumper, safety detonating device and electronic temporary device, and above the jumper the remaining elements of the fuse, while the diameter D and thickness D ₁ are related by the ratio

D = (2.0 ... 7.0) D ₁ .

As the results of calculations and field tests show when the firecrackers and expelling charge are triggered, a pressure of the order of (8000 ... 15000) MPa is created inside the projectile, depending on the caliber of the projectile. The fuse withstands the specified pressure until the cartridge elements are ejected toward the bottom of the projectile with a jumper thickness within (10 ... 15) mm, which is ensured by the fulfillment of the relation D = (2.0 ... 7.0) D ₁ . Moreover, this ratio is true both for steel casings and for casings made of aluminum alloys.

The invention is illustrated by the drawing which shows a General view of the proposed design of the fuse.

Remote fuse contains a metal housing 1 with an outer diameter of a spectacle thread D and a jumper with a thickness of D ₁ . A firecracker 2, a safety detonating device 3 with a transfer charge 4 and a detonator capsule 5, and an electronic temporary device 6 with an electric igniter 7 are placed in the housing from the bottom of the fuse. Thus, the entire fuse circuit, the elements of which together with the expelling charge of the projectile pressure when triggered, located under the jumper.

In the volume above the jumper are a power source 8 and an installation device (not shown in the drawing). The upper part of the fuse using a union nut 9 and the casing 10 is attached to the housing 1.

The fuse works as follows. At the specified point of the trajectory after the set remote control time has elapsed, the electronic temporary device 6 generates a signal for the operation of the electric igniter 7. As a result, the detonator capsule 5, the transfer charge 4, the firecracker 2 and the projectile discharge charge (not shown) are triggered. Inside the shell, the pressure of the explosion products of all the firing elements of the fuse and the projectile is created. The jumper in the case 1 of a fuse with a thickness of D ₁ does not allow pressure relief until the destruction of the bottom of the projectile and the release of cluster warheads.

In a specific implementation of the claimed invention, the housing is made of steel with spectacle thread M52x3 and a bridge thickness of 15 mm.

The achieved effect when using the claimed invention is to ensure the operability of the cartridge shell when the cartridge elements are ejected towards the bottom of the shell.

The technical result of the claimed invention is confirmed by the results of the above and field tests.

Claims (1)

A remote fuse comprising a housing with an outer diameter of the spectacle thread D, a firecracker, a safety detonating device, a power source, an installation device and an electronic temporary device, characterized in that the housing is made with an internal jumper of thickness D ₁ , wherein the firecracker is a safety detonating device and the electronic temporary device is located under the jumper, and above the jumper are the other mentioned elements of the fuse, while the diameter D and thickness D ₁ are related by the ratio D = (2.0 ... 7.0) D ₁ .