RU2389971C1 - Electric detonator - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: electric detonator comprises cartridge (1) with charge of explosive substance (ES) installed in it as an external hinge (6) made of secondary explosive substance of high density, intermediate hinge (3) of deflagration explosive substance with low density and initiating hinge (4) of deflagration explosive substance of high density joined with explosive bridge (8). Bridge (8) is installed on sealing block (7) with current leads (9). Initiating hinge (4) is arranged with height h along axis determined according to formula h=(22…26)-D_i, where D_i - diametre of explosive bridge.

EFFECT: improved efficiency, reliability and performance of electric detonator actuation.

3 cl, 1 dwg, 1 tbl

Description

The invention relates to the field of safe explosive means, namely to low-voltage bridge electric detonators, and can be used as a small-sized means of initiation during blasting.

Known high-voltage electric detonator type EDV (Lurie A.I. Electrical explosion of charges. - M .: Nedra, 1973, p.50), containing a metal sleeve, a pressed charge of a secondary explosive (BB), a low-pressure charge of a heating element, a plastic plug with a technological protrusion into which copper output wires with an exploding bridge are mounted. The detonator has a significant drawback: the low sensitivity of the electric detonator to the initiating current pulse requires a high voltage, which leads to an increase in the size of explosive devices and toughens the requirements for electrical installations for safety.

The closest and selected as a prototype is an electric detonator as.with. No. 1746778 dated 10.27.1988, IPC ⁷ F42C 19/12, publ. 01/20/1995, the electric detonator contains a sleeve with an explosive charge placed in it, made in the form of attachments - output from a high-density secondary explosive and initiating, coupled with an initiator mounted on a sealing block with current leads.

However, the electric detonator, selected as a prototype, has several significant drawbacks: for example, the charge of a low-density secondary explosive is used as the initiating charge of the explosive, which lengthens the stage of convective combustion, increasing the response time of the electric detonator, and requires high-voltage initiation, which is due to the use as an initiator exploding bridge, the manufacture of which is technologically complex.

The aim of the invention is to reduce the power consumption and dimensions of the electric detonator, increasing speed, sensitivity to the initiating pulse while maintaining safety in operation.

This is achieved by the fact that the electric detonator containing a sleeve with an explosive charge placed in it, made in the form of hinges — the outlet from a secondary high-density explosive and initiating, coupled to an initiator mounted on a sealing block with current leads, is equipped with a spark gap placed between the sealing block and current leads, and is equipped with a liner mounted in a sleeve with an explosive charge and an intermediate sample of a low-density deflagrating explosive a bridge located between the outlet and the initiating hitch, while the initiating hitch is made of high-density deflagrating explosives with a height along the axis determined by the formula

h = (22 ... 26) · D _and ,

where D _and is the diameter of the initiator.

In addition, the initiator is made in the form of an incandescent bridge of high-resistance material wire.

In addition, the liner is made in the form of a metal sleeve.

The technical result consists in the fact that it was possible to reduce the energy intensity of the electric detonator (ED) during the transition to low-voltage initiation due to the use of a deflagrating explosive and initiator (incandescent bridge) as an initiating sample; reduce the time of convective combustion and increase the speed of ED due to a combination of 2 hangings of a deflagrating explosive of various densities and the use of a liner (metal sleeve); the discharge device made it possible to increase safety by eliminating the possibility of the operation of an electric detonator from a static electricity discharge. An additional result is the reduction in manufacturing technology by simplifying the design of the initiator (incandescent bridge).

The presence in the claimed invention features that distinguish it from the prototype, allows us to consider it appropriate to the condition of "novelty."

New features (an arrester placed between the sealing block and current leads, an insert with an explosive charge installed in the sleeve, and an intermediate sample of low-density deflagrating explosive material located between the output and initiating samples, while the initiating sample is made of high-density deflagrating explosive material with the height along the axis determined by the formula

h = (22 ... 26) · D _and ,

where D _and is the initiator diameter) are not identified in technical solutions of a similar purpose. On this basis, we can conclude that the claimed invention meets the condition of "inventive step".

The drawing shows a General view of an electric detonator.

The electric detonator consists of a sleeve 1, a liner (metal sleeve) 2, rolled into a sleeve 1, with an explosive charge in the form of attachments: output 3 from a secondary high-density explosive, paired with it intermediate 4 from a low-density deflagrating explosive and initiating 5 of the deflagrating high-density explosive (for example, cobalt nitrotetrazolatopentamine diperchlorate), pressed directly into the liner 2, glued into the sleeve 1 of a plastic sealing block 6, with and her initiator (glow bridge) 7, made of nichrome wire with a diameter of 0.04 mm and current leads 8, arrester 9, made by the technology of manufacturing printed circuit boards and soldered to current leads 8 to protect against static electricity discharges.

The operation of the electric detonator is as follows. When a subversive electrical pulse is applied to the initiator (glow bridge) 7, a sample 5 of a high-density deflagrating explosive is initiated and subsequent weights of an intermediate 4 of a low-density deflagrating explosive are sequentially triggered and output 3 of a high-density secondary explosive is output. When applying a voltage of U = 40 V (1 = 25 A), the operation time of the electric detonator is t _p = 18 μs, and the output pressure is P = 23 GPa. The height along the axis of the initiating sample 5 of the high-density deflagrating explosive is determined by the formula h = (22 ... 26) · D _and. = (22 ... 26) · 0.04 = 0.88 ... 1.04 mm. The value of 22 ... 26 in the formula for determining the height of the initiating hinge is selected as a result of the experiments, the data of which are given in the table (the optimal thickness of the initiating hitch h is highlighted in italics):

h mm t _cp , μs 0.75 20.6 0.89 16.8 1.01 17.4 1,02 16,4 1,04 17,2 1,52 19.5 2.06 20,4

The table shows that the optimal values of h lie in the indicated range.

The use of this invention will improve the efficiency of engagement, reliability and speed of the electric detonator and reduce energy consumption (which significantly reduces the dimensions of the blasting device).

Thus, the above information indicates the fulfillment of the following set of conditions when using the invention: - in the electric detonator, designed to initiate blasting operations, improved operational characteristics, namely the efficiency, reliability and speed of operation of the electric detonator, increased security by eliminating the possibility of the electric detonator from discharge of static electricity;

- for the claimed invention in the form described in the claims, the possibility of its implementation using the above-described structural solutions is confirmed, namely, an electric detonator with improved characteristics is obtained due to the emerging stage of convection combustion prior to detonation transformation upon initiation of a deflagrating explosive, which transfers to detonation;

- electric detonator, embodied in the claimed invention during its implementation, is able to ensure the achievement of perceived by the applicant achieved technical result.

Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (3)

1. An electric detonator containing a sleeve with an explosive charge placed in it, made in the form of an output sample from a high-density secondary explosive and an initiating sample, coupled to an initiator mounted on a sealing block, and current outputs, characterized in that it is equipped with a spark gap placed between a sealing block and current leads installed in a liner with an explosive charge and an intermediate sample of a low-density deflagrating explosive, aspolozhennoy between the output and initiating weighed, the weighed initiating made of deflagrating explosive high density with height h along the axis defined by the formula
h = (22 ... 26) · D _and , where
D _and - the diameter of the initiator. 2. The electric detonator according to claim 1, characterized in that the initiator is made in the form of an incandescent bridge from a wire of high resistance material. 3. The electric detonator according to claim 1, characterized in that the liner is made in the form of a metal sleeve.