BG976U1 - Safety detonation mechanism - Google Patents

Abstract

The safety detonation mechanism is designed for completing of bottom detonators in ammunitions stabilized by revolving. By it, simplification of the design and higher degree of safety is achieved. It comprises a body (3) with a rectangular groove in which a primer carrier (2) with primer detonator (1), centrifugal latch lock (16), safety lock (9) and self-destructor (19) are fitted. Between the safety lock (9) and the self-destructor (19) an intermediate blasting fuse (18) is envisaged, and in a hole machined along the axis of body (3) a spring-loaded cable core (5) with a cylindrical projection (7) is fitted, and the volume (6) formed under it is functionally connected by means of a radial groove (13) to a booster (12) and self-destructor (19), closed by a profile bottom (8), fixed to the body (3) by means of a nut (15).

Description

Technical field

The utility model refers to a pre-detonation mechanism that is used to assemble rotary-stabilized bottom fuses for ammunition.

BACKGROUND OF THE INVENTION

A known detonating mechanism is known, which is made up of a body with a capsule carrier therein, consisting of a detonator capsule and a spring housed in a channel of the body, formed as a rectangular opening. There is an aperture along the axis of the body housing the detonator capsule. The body has a transitional opening housing an inertia limiter, a capsule carrier and a transfer charge. A trapezoidal canal is formed in the capsule carrier, in which a ball is placed between the support surfaces of the trapezoidal canal and the through passage of the body, by which the capsule carrier is blocked. Characteristic of this mechanism is that it is executed without a guard against the undesirable explosion of a safe for the firing distance and the absence of a self-destructor (BG 52205 A).

Another known detonating mechanism is known, which consists of a body housing a capsule carrier with a capsule detonator and a spring, a pyrotechnic limiter, an inertial limiter, a self-destructor and a transfer charge. In addition, an inertial igniter is placed between the self-liquidator and the pyrotechnic arrester, which initiates a firing impulse for firing them at firing. Characteristic of this mechanism is the presence of a pyrotechnic limiter and self-liquidator, providing higher safety (BG 63476 B1).

The technical nature of the utility model

The task of the utility model is to create a safety-detonating mechanism with a simplified construction and a higher degree of safety.

The task is solved by creating a mechanism consisting of a body with a capsule carrier, a centrifugal stopper, a remote guard, a spring cable, a viewer plane and a bottom.

According to the utility model, an intermediate igniter is provided between the remote guard and the self-destructor, which receives a fire pulse from the ammunition throwing charge through a refueling line at the bottom of the mechanism. A cylindrical spring-loaded spring-loaded core is inserted into an opening located along the axis of the body, the volume formed below it being connected functionally via a radial channel to the self-eliminator closed by a profile bottom fixed to the body by means of a nut.

The benefits of the utility model are the following. The presence of an intermediate igniter simplifies the construction. The remote guard and the self-destructor receive a direct firing impulse through the intermediate igniter from the ammunition throwing charge, which increases operational safety. The self-destructor is functionally connected via a spring-loaded radial channel to provide reliable ignition of the detonator capsule in the mechanism.

Description of the attached figures

An exemplary embodiment of the utility model shot is shown in the accompanying figures, where:

Figure 1 is a schematic diagram and longitudinal section of the mechanism;

FIG. 2 is a sectional view of the AA mechanism of FIG. 1;

3 is a sectional view of the BB mechanism of FIG. 1;

4 is a sectional view of the DD mechanism of FIG. 3;

5 is a sectional view of the SS mechanism of FIG. 2.

Examples of implementation of the utility model

The detonating mechanism (Figures 1 to 5) consists of a body 3, with a rectangular opening 22, which houses a capsule holder 2 with a capsule detonator 1 and a spring 10, a remote guard 9, a centrifugal stopper 16 with a spring 17, a wire 5 with cylindrical projection 7 and spring 4.

In the upper part, the body 3 and the capsule carrier 4 are closed with a cap 11, and on the opposite side in the body 3 an intermediate igniter 18, a self-destructor 19 and an amplifier 12 connected functionally to the volume 6 behind the core 5 via a radial groove 13. The self-liquidator 19 is closed with by means of a bottom 8 in which a refractory 20, a blind hole 21 and a channel 14 are arranged geometrically, respectively, against the intermediate igniter 18 and the radial channel 13 fixed to the fuser housing by a nut 15.

Application and mode of action of the utility model

The detonation mechanism is used to assemble rotary stabilized bottom fuses for ammunition.

The principle of operation of the mechanism (Figures 1 to 5) is as follows.

In office mode

These are the operations of loading, transporting, unloading and storage of the mechanism in the composition of the bottom fuse. The detonation mechanism is in a starting position in which the detonator capsule 1 is displaced from the axis of the channel through which a detonation pulse is transmitted to the multipoint initiator of the detonator. In this position, the capsule carrier 2 is held in place by a centrifugal stopper 16 and a spacer 9.

In the case of an accidental ignition of an intermediate igniter 18, the pyrotechnic composition of the remote guard 9 is ignited and it releases the capsule carrier 2. In this position, the capsule carrier 2 is retained only at the starting position by the centrifugal stopper 16. At the same time, the self-destructor 19 is ignited. ignites the amplifier 12, whose gases have a mechanical effect on the core 5, which moves along the axis to the capsule carrier 2. Because the capsule carrier is held by the centrifugal stopper 16, the core 5 n is able to prick the detonator capsule 1. The mechanism is thus prevented from triggering when in service.

In shot mode

Under the influence of the centrifugal forces generated by the rotation of the ammunition, the centrifugal stopper 16 releases the capsule carrier 2, which is blocked by the remote guard 9. At the same time, the gases from the throwing charge, passing through the fire line 20, ignite the intermediate igniter 18 and ignite the igniter 18. pyrotechnic composition of the remote guard 9. After the expiration of the specified delay time, the remote guard 9 releases the capsule carrier 2, which moves transversely to the axis of the line. Output in which the blasting cap one stands against the cable 5 and the mechanism is ready for deployment.

In the event that the ammunition with the built-in safety-detonating mechanism does not encounter a barrier, after the expiry of the designated time for self-liquidation, the self-destructor 19 ignites the amplifier 12 whose gases passing through the radial channel 13 and the channel 14 exert a mechanical effect on the core 5, which, having on the other hand, he stabs the detonator cap already against him.

Claims (2)

Claims 1. A detonating mechanism consisting of a body in the upper part of which a rectangular channel is formed with a capsule-detonator capsule therein, a centrifugal stopper positioned laterally on the capsule carrier and a self-destructor pressed into the lower end of the body. spacer, characterized in that a spring-loaded core (5) with a cylindrical projection (7) is mounted on the axis in the body (3), and the volume (6) formed below it is connected to an intermediate igniter (18) by a radial channel ( 13) with amplifier (12) and with self-liquidation pa (19) and the profile bottom (8) is fixed to the body (3) by means of a nut (15). A mechanism according to claim 1, characterized in that in the profile bottom (8) there is a fire line (20) and a blind opening (21) with a side channel (14) arranged against the intermediate igniter (18) and the core (5), respectively. ).