RU2272983C1 - Detonating device of mechanical fuse - Google Patents

Abstract

FIELD: fuses actuated by a preset mechanical force, applicable in development of the design of a detonating device of an impact mechanical fuse.

SUBSTANCE: the detonating device of a mechanical fuse has a body with a primer detonator, lead charge and a detonator made of a high explosive positioned in succession in it, the deformable component of inert material in the form of a disk and installed between the cylindrical striker and the primer detonator, which is linked with the lead charge through the axial duct of the body, the body is realized in the form of a bush and a sleeve fastened by a nut, whose end face surface is positioned above the end face surface of the striker, and radial holes filled with a low-melting alloy are made in the zone of a low-melting alloy are made in the zone of location of the lead charge, for fastening to the mechanical fuse made on the outer surface of the nut are a thread and longitudinal ducts, as well as radial holes in the upper and lower parts of the nut, besides, the cylindrical striker is hermetically fastened in the nut cavity with the aid of a heat-resistant adhesive, and a union nut is used for fixation of the detonator, the primer detonator has dimensions of fractions of heat-resistant high explosive of about 0.2 mm.

EFFECT: enhanced safety of perforator operation in extreme conditions for provision of a reliable transfer of the detonation impulse and guaranteed failure of detonation due to wetting and washing-away of explosive and provision of failure of operation of the mechanical fuse.

1 dwg

Description

The invention relates to blasting operations, in particular to fuses that are fired from a given mechanical force, and can be used to develop the design of the detonating device of an impact mechanical fuse.

Known detonating device (see Rifle-blasting equipment, Handbook, 1990, edited by L. Ya. Fridlyander, Moscow, Nedra, p. 67), containing sequentially located in a plastic case, a detonator capsule detonator action and a piece of blasting explosive, moreover, the detonator capsule is a thin-walled metal sleeve having an explosive charge and the charge of the initiating explosive pressed into the cup, the detonator capsule being coated with a paronite gasket.

A disadvantage of the known solution is the increased danger during production operations related to the fact that the detonator capsule contains an initiating explosive that is extremely sensitive to various kinds of external influences (shock, vibration, etc.).

The closest in technical essence and the achieved result is a detonating device of a mechanical fuse (see patent RU No. 2083948, IPC F 42 C 19/10, dated 10.07.97), comprising a housing with a detonator capsule in series, a transfer charge and a detonator, wherein the detonator capsule is made of blasting explosive, an axial channel is made in the housing between the transfer charge and the detonator capsule, and a cylindrical firing pin is located above the detonator capsule, while a detonator is installed between the detonator detecting an inert material deformable element in the form of a disc, in addition, the housing formed as a sleeve and the sleeve nut fastened, the end surface of which is located above the end surface of the striker, and a liner in the zone of transfer of charge provided with radial holes filled with a fusible alloy.

The detonating device of a mechanical fuse uses a blasting explosive that is less sensitive to external influences, has increased safety in production and handling, and the explosive assembly is actuated by a hammer, which is released at a certain point in time and then strikes the hammer, and the explosive assembly is made from an igniter capsule, a transfer charge, and a blasting explosive charge.

This technical solution solves the problem of significantly reducing the impact energy (the kinetic energy of the detonation initiator rod dropped from the wellhead) needed to engage an explosive assembly equipped with a blasting explosive, which has a low tendency to transfer combustion to detonation, and with mechanical impact (impact) on the striker explosive site ignition of a sample of explosive in the detonator capsule, and then in the transfer charge, ignited by a stream of combustion products, expiring them through the channel of the primer, the process of transition from combustion to detonation is performed (thus, using conditions of high explosive blast excitation provided by: F _{cr straight} ≥R wherein P _ave - pressure at which breakdown occurs Durability sample explosive under striking, accompanied in the detonating device by an intense release of the substance into the hole of small diameter; P _cr - critical pressure, from which the destruction of the substance leads to the formation of effective hotbeds of heating and ignition of explosives, see G.T. Afanasyev, 1968, Initiation of solid explosives by impact, Moscow, Nauka, p. 83).

However, in the case of crushing a perforator, it can be triggered by maintaining the pressure difference in the well and cavity under the fuse of a mechanical fuse.

The problem to which the invention is directed, is to increase the reliability of the excitation and transmission of the detonation pulse, and in the case of crushing a perforator guaranteed failure.

The technical result of the invention obtained by carrying out the invention is to increase the safety of a perforator in extreme conditions to ensure reliable transmission of a detonation pulse and guaranteed failure of detonation due to wetting and leaching of the explosive and ensuring the failure of the initiating head.

The technical result is achieved in that the detonating device of a mechanical fuse, comprising a housing with a sequentially located detonator capsule, a transfer charge and a detonator made of blasting explosive, and a deformable element of an inert material in the form of a disk is installed between the cylindrical striker and the detonator capsule , which is connected through the axial channel of the housing with a transfer charge, while the housing is implemented in the form of a sleeve and a sleeve fastened with a nut, the end surface which is located above the end surface of the striker, and in the sleeve in the area of the transfer charge there are made radial holes filled with fusible alloy, and for fastening with a mechanical fuse on the outer surface of the nut there are threads and longitudinal grooves, as well as radial holes in the upper and lower parts of the nut in addition, the cylindrical firing pin is hermetically fixed using heat-resistant glue in the nut cavity, and a cap nut is introduced to fix the detonator, and the detonator capsule contains dimensions fractions of blasting heat-resistant explosive about 0.2 mm

The essence of the proposed technical solution lies in the fact that in the case of crushing the perforator, respectively, the well fluid is accessible to the detonator capsule and the transfer charge and the pressure is equalized in the perforator cavity and the mechanical fuse cavity above the detonating device, which leads to a guaranteed failure due to wetting and leaching of the explosive substances and the failure of the mechanism of a mechanical fuse, in addition, the use of blasting explosive, sifted fraction p increases the reliability of initiation in the detonator capsule and the development of detonation in the transfer charge.

The use of a union nut for fixing the detonator at elevated temperatures and a vertically located detonator contributes to the guaranteed operation of the device.

Comparison of the proposed solution with well-known technical solutions shows that it has a new set of essential features that can successfully achieve the goal.

The drawing shows a detonating device of a mechanical fuse.

The detonating device of a mechanical fuse contains a housing, a detonator capsule 2, a transfer charge 3, a detonator 4, a cylindrical hammer 5, a deformable element of inert material in the form of a disk 6, an axial channel 7, the housing being implemented as a sleeve 8 and a sleeve 9, fastened nut 10, in sleeve 9 there are made radial holes 11 filled with fusible alloy, a thread 12 is cut on the outer surface of nut 10 and radial holes 13 and 14 are made in the upper part and in the lower parts of nut 10, two longitudinal grooves 15 laid on aruzhnoy surface of the nut 10 and the cap nut 16 and the lip 17.

The detonating device of a mechanical fuse works as follows.

A mechanical impact on a cylindrical striker 5 causes compression and radial plastic deformation of the detonator capsule 2, and the destruction of the detonator capsule 2 is accompanied by the formation of heating centers, as a result of which the explosive ignites and its combustion products ignite the transfer charge 3 through the axial channel 6. The combustion of the transfer charge 3 in a closed volume, with increasing pressure, accelerates and at a certain distance passes the normal detonation, which is transmitted further to the children nator 4.

The use of a union nut 16 for fixing the detonator 4 at elevated temperatures and a vertically located detonator 4 contributes to the guaranteed operation of the device, due to the reliable fastening of the detonator 4 in the sleeve 9.

If the perforator is crushed, the borehole fluid is accessible to the detonator capsule 2 and the transfer charge 3, and longitudinal grooves are used to equalize the pressure in the perforator cavity and the mechanical fuse cavity above the detonating device, which leads to guaranteed failure due to wetting and leaching of the explosive and failure to work mechanical fuse mechanism.

The technical and economic effect of the invention is achieved by increasing the safety of the punch in extreme conditions to ensure reliable transmission of the detonation pulse and guaranteed failure of the detonation by wetting and washing out the explosive with equalization of pressure in the punch and the area of the mechanical fuse.

Claims (1)

A detonating device of a mechanical fuse, comprising a housing with a detonator capsule sequentially located in it, a transfer charge and a detonator made of blasting explosive, a deformable element made of an inert material in the form of a disk mounted between a cylindrical hammer and a detonator capsule that is connected through an axial channel housing with a transfer charge, while the housing is made in the form of a sleeve and sleeve, fastened with a nut, the end surface of which is located above the end turn In the case of the striker, and in the sleeve in the area of the transfer charge, there are made radial holes filled with fusible alloy, characterized in that for fastening with a mechanical fuse on the outer surface of the nut, threads and longitudinal grooves, as well as radial holes in the upper and lower parts of the nut, Moreover, the cylindrical firing pin is hermetically fixed using heat-resistant glue in the nut cavity, and a cap nut is inserted to fix the detonator, and the detonator capsule contains a blasting heat-resistant explosive This is a substance with a size of fractions of the order of 0.2 mm.