RU164827U1 - SHOCK DETONATOR - Google Patents

Abstract

An impact detonator, comprising a housing with a cylindrical sleeve located inside, with a through hole in the center, inside of which is a striker made with a lower part in the form of a truncated cone; the cover of the case, with a bottom in the upper part in contact with the striker, and a lower part, rolled inward by lower edges, tightly covering the annular protrusion on the outer side of the case, in the lower part of the case located on the bottom of the cup opening is a blasting explosive product, while the lower half of the blasting explosive product is made high-density with a recess in the upper part in the form of a truncated cone, the upper half of the blasting explosive product is made low dense and fills the volume within the housing between the top of the lower halves of the product of blasting agent and aluminum foil, adjacent to the product; on the outer side of the side wall of the lid there is made an annular groove with a seal located in it, characterized in that a cup is installed inside the sleeve, into which two parts of the explosive are pressed in, the initiating explosive in the lower part, and the blasting explosive in the upper part, while a recess is made in the upper part of the lid on the inner side, forming an annular groove with the upper part of the striker designed to fill heat-resistant glue into it, and the striker in its lower part is centered It is filled in the form of a cone-shaped ring and installed in such a way that a gap remains between its lower part and the blasting explosive.

Description

The utility model relates to the technology of blasting in the mining, mining and construction industries, namely to detonating devices that are triggered by mechanical action to ensure detonation in cumulative perforators.

Known analogues containing a body, a striker, a sleeve, an explosive product (see, for example, description of the invention to patent RU 2225584, IPC 7 F43B 3/10, F42C 19/10, publication date 11/20/2003; description of the invention to the patent RU 2233428, IPC 7 F42C 19/10, publication date July 27, 2004, description of the invention to patent RU 2202765, IPC 7 F42C 19/10, publication date 04/20/2003).

A disadvantage of the known analogues is the insufficiently high reliability of operation due to the connection of parts by means of a threaded connection and low tightness.

Known detonating device of a mechanical fuse, comprising a body, a striker, a product of blasting explosive, a cup (see, for example, the description of the invention to patent RU 2392578, IPC F42C 19/10 (2006.01), publication date 12/27/2009).

The disadvantage of the analogue is the insufficiently high reliability of operation due to the connection of parts by means of a threaded connection and low tightness.

The closest in technical essence and the achieved effect and selected as the closest analogue to the prototype is the Description of the utility model for RF patent No. 125685, IPC F42C 19/10, shock detonator.

The disadvantage of the technical solution is the insufficiently high reliability of the detonation excitation in the explosive chain of perforation systems.

The technical result of the claimed solution is to ensure the prevention of unauthorized operation of the shock detonator.

The essence of the technical solution is expressed in that the shock detonator comprises a housing with a cylindrical sleeve located inside, with a through hole in the center, inside of which there is a striker made with a lower part in the form of a truncated cone; housing cover, with the bottom in the upper part in contact with the striker, and the lower part, rolled inward by lower edges, tightly enclosing an annular protrusion on the external side of the housing, in the lower part of the housing located on the bottom of the cup opening is a blasting explosive product, while the lower half of the blasting explosive product is made high-density with a recess in the upper part in the form of a truncated cone, the upper half of the blasting explosive product is made low dense and fills the volume inside the case between the upper part of the lower half of the blasting explosive product and aluminum foil adjacent to the product; on the outer side of the side wall of the lid there is an annular groove with a seal located in it, and differs from the prototype in that a cup is installed inside the sleeve, into which two parts of the explosive are pressed in, the initiating explosive in the lower part, and the blasting explosive in the upper part moreover, in the upper part of the lid on the inner side there is a recess, forming an annular groove with the upper part of the striker, designed to fill heat-resistant glue into it, and the striker in its lower part on center designed as a cone-shaped ring and is mounted so that between its bottom portion and blasting agent there is a gap.

The essence of the technical solution is illustrated by the drawing - Fig. 1, which shows a side view in section.

The shock detonator comprises a housing 1, in the lower part of which, in a cup 2, a blasting explosive product is located. In this case, the lower half 3 of the product is made of high density, with a recess in the upper part in the form of a truncated cone. The upper half 4 of the product is made of low density and fills the volume inside the case between the upper part of the lower half of the blasting explosive product and aluminum foil 13 adjacent to the product.

The body is equipped with a sleeve 5, inside of which is mounted a cup 6. Two parts of the explosive are pressed into this cup. The lower part 7 is the initiating explosive. The upper part 8 is a blasting explosive.

The firing pin 9 is installed in the sleeve, in its lower part made in the form of a cone-shaped ring. This design feature allows you to change the scheme of detonation excitation. When the striker moves down due to the impact on it, the explosive partially fills the gap between the cup and the cone of the striker, as a result of which the initiating explosive is pinched, which allows the use of a less sensitive initiating explosive in the detonator. This increases the likelihood of operation, which increases the efficiency of the shock detonator.

The hammer is set so that between its lower part and blasting explosive 8 there is a gap. An annular groove 10 is made in the upper part of the striker, designed to fill heat-resistant glue into it. The glue fixes the firing pin in the sleeve, due to the adhesive strip transverse and longitudinal vibrations are excluded. This design eliminates unauthorized explosion and provides reliable transportation of the shock detonator.

The shock detonator is equipped with a cover 11, which is designed to protect the striker 9 from mechanical influences, keeps the components of the detonator stationary. The bottom of the upper part of the lid is in contact with the striker, and the lower part is sealed inward by lower edges, tightly covering the annular protrusion on the outer side of the housing.On the outer side of the lid 11 there is an annular groove with a seal 12 located in it, designed to fix the detonator in the seat.

An impact detonator is installed in the initiating head to ensure the initiation of detonation in the explosive chain of cumulative perforators launched on the tubing.

When impact on the firing pin 9, the latter moves down, compressing a sample of the blasting agent 8 and the initiating explosive 7. Due to the conical shape of the firing pin, when it moves down, the gap between the firing pin cone and the cup is filled, the explosive is jammed and friction is played, which plays an additional factor for the excitation of high-speed combustion with the transition to detonation. The detonation pulse, additionally accelerating, enters through the through hole in the lower part of the sleeve 5 into the lower part of the housing 1, where two halves of the high-density 3 and low-density blasting explosives are located sequentially. The detonation goes to the stationary mode and is transmitted from the shock detonator to the coaxial transmission device detonation of a cumulative punch, ensuring reliable operation of the latter it is set, and from the detonating cord to the charges transferred cumulative perforator.).

The design of the claimed device prevents unauthorized operation of the shock detonator in a liquid medium in case of depressurization of the initiating head.

Claims (1)

An impact detonator, comprising a housing with a cylindrical sleeve located inside, with a through hole in the center, inside of which is a striker made with a lower part in the form of a truncated cone; the cover of the case, with a bottom in the upper part in contact with the striker, and a lower part, rolled inward by lower edges, tightly covering the annular protrusion on the outer side of the case, in the lower part of the case located on the bottom of the cup opening is a blasting explosive product, while the lower half of the blasting explosive product is made high-density with a recess in the upper part in the form of a truncated cone, the upper half of the blasting explosive product is made low dense and fills the volume within the housing between the top of the lower halves of the product of blasting agent and aluminum foil, adjacent to the product; on the outer side of the side wall of the lid there is made an annular groove with a seal located in it, characterized in that a cup is installed inside the sleeve, into which two parts of the explosive are pressed in, the initiating explosive in the lower part, and the blasting explosive in the upper part, while a recess is made in the upper part of the lid on the inner side, forming an annular groove with the upper part of the striker designed to fill heat-resistant glue into it, and the striker in its lower part is centered It is filled in the form of a cone-shaped ring and installed in such a way that a gap remains between its lower part and the blasting explosive.

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