RU2746956C1 - Detonation transmission device - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to devices that initiate and directionally transmit detonation in order to initiate an explosive charge of the detonated object. The detonation transmission device has a metal body with an insert installed in it. There is a detonation channel between the detonator and the detonation object in the insert. The insert is made of an inert material with density of less than 0.3 g/cm3. The insert is composite. One of the parts of the insert has a longitudinal groove that is made with an outlet lateral hole. There is a plastic explosive of the detonation channel in the outlet lateral hole. The detonation channel has a receiving block and a transmitting block closed by a liner transmitting detonation in a given direction.EFFECT: reducing the shock wave impact on the surrounding structures.6 cl, 2 dwg

Description

The invention relates to devices that initiate and directionally transmit detonation in order to initiate an explosive charge of the detonated object. It can be used in various fields of explosive technology, for example, for use in explosive devices, where a reduction in shock-wave impact is required to avoid damage or destruction of elements of surrounding structures.

An initiating device is known (RF patent No. 2636982, publ. 11/29/2017), which contains a detonator with an explosive charge and an initiation element displaced from its axis, a detonation channel between the detonator and the object of detonation. The detonator is located laterally along the surface of the blasting object, is bent and consists of two sections, the first is facing the detonator and is placed at an angle to its axis, the second is facing the blasting object, while the axis of the first section intersects the detonator axis in the center of the end surface of the channel, the lower part the edges of the channel sections closing from the side of the blasting object is rounded with a radius of 1 to 2 radii of the zone of the angular effect of detonation propagation in the channel so that the rounding surface in the plane of symmetry of the device is tangent to the detonator axis.

This initiating device is chosen as a prototype.

The disadvantages of such a device are:

- in the absence of a reinforced transmitting checker, which leads to a decrease in the initiating ability of the device through the gap between the detonation channel of the claimed device and the object of initiation;

- the non-technological element in which the detonation channel is located, which reduces the ability of the prototype device to transmit detonation over long distances. The problem is that with an increase in the length of the detonation channel, difficulties arise in providing a gap-free connection of rods made of plastic explosive, which can lead to non-transmission of detonation in the detonation channel and failure of the device.

The objective of the invention is to develop a detonation transmission device in a metal case with elements for fixing the claimed device and fixing an initiating device in it, which allows detonation to be transmitted through the detonation channel over long distances in a given direction, having a reduced shock-wave effect on the surrounding structures.

The technical result achieved when using the proposed device is expressed in the following:

- it is possible to transmit detonation through the detonation channel over long distances, in a given direction due to the use of a split liner along the detonation channel;

- the device has a reduced shock-wave effect on the surrounding structures due to the location of the detonation channel in a liner made of an inert material with a density of less than 0.3 g / cm ³ and the use of a metal body;

- there is a possibility of transferring detonation to the object of initiation through the gap. This is necessary in cases where it is not possible to connect the initiating device to the initiated object without a gap.

The technical result is achieved by the fact that in a detonation transmission device containing a metal case with an insert installed in it, in which a detonation channel is organized between the initiating device and the detonation object, the insert is made of an inert material with a density of less than 0.3 g / cm ³ , composite, with In this case, in one of the parts, a longitudinal groove is made with an outlet lateral opening, in which a plastic explosive (BB) of a detonation channel is placed, having a receiving block and a transmitting block, closed by a liner transmitting detonation in a given direction.

In the end blind part of the body there are pins, and in the insert there are mating holes. The liner is tightened in the body with a nut. The open end of the body has an internal thread for securing the initiating device. The body is equipped with a flange for fixing the device.

The device uses an insert cut along the detonation channel, which makes the equipment of long inserts technologically advanced, and the use of an inert low-density material with a density of less than 0.3 g / cm ³ for the manufacture of the insert and the metal body of the device makes it possible to reduce the shock-wave effect on the surrounding structures. The use of an inert material of low density makes it possible to preserve the integrity of the explosive rods in the detonation channel, at the same time, it has a minimal effect on the body of the device during detonation of the explosive in the channel and allows the gases formed and expanding during the explosion of the explosive in the detonation channel to use the volume occupied by the insert. The metal body has a flange for fastening it, a threaded hole for attaching the initiating device and two pins on the inner end of the body for the exact angular position of the insert inside the body, which allows you to set the required direction of detonation transfer from the claimed device to the initiating object. An aluminum foil is installed on the transmitting block of the liner, which acts as a flying liner to transfer detonation to the initiation object through the air gap.

Figure 1 shows a side view, figure 2 - section A-A of Fig. 1, top view, where 1 is a steel body; the liner, consisting of two parts 2 and 3, inside the liner 2 there is a channel with an outlet lateral opening, equipped with a plastic explosive 4, having at the ends places for the location of the receiving 5 and transmitting 6 explosive blocks. At the end of the liner 2, there are also two blind counter holes for the pins 7, which are in the housing 1. The output of the transmitting block 6 is located on the flat of the liner 2 and is closed by the liner 8 made of aluminum foil. The liner, consisting of two parts 2 and 3, in the body 1 is tightened with a metal nut 9.

The device is initiated from the side of the receiving checker 5 with the help of an initiating device (not shown in the figure) installed in the threaded hole of the housing 1. From the receiving checker 5 through the detonation channel in the insert 2, detonation is transmitted to the transmitting checker 6 and detonating it accelerates the aluminum foil 8, which, when hitting the initiation object, causes a detonation in it.

When the gases formed as a result of the explosion of explosives in the detonation channel of the liner expand, the liner volume is used, which practically does not resist the expanding gases and pressure on the device body, thereby achieving a reduced shock-wave effect on the device body and, as a consequence, on the elements of the surrounding structures.

Claims (6)

1. A detonation transmission device having a metal case with an insert installed in it, in which a detonation channel is organized between the detonator and the detonation object, characterized in that the insert is made of an inert material with a density of less than 0.3 g / cm ³ , composite, while One of the parts has a longitudinal groove with an outlet lateral opening, in which a plastic explosive of a detonation channel is placed, having a receiving block and a transmitting block, closed by a liner transmitting detonation in a given direction. 2. The device according to claim 1, characterized in that there are pins in the end blind part of the body, and counter holes in the liner. 3. The device according to claim 1, characterized in that the open end of the housing has an internal thread for securing the detonator. 4. The device according to claim 1, characterized in that the insert is pressed in the body by a nut. 5. The device according to claim. 1, characterized in that it has a metal body provided with a flange for fixing the device. 6. The device according to claim 1, characterized in that it has an axially cut insert.

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