RU2013132913A - SAFETY-EXECUTIVE MECHANISM AND METHOD OF ITS APPLICATION - Google Patents

Abstract

1. Safety-actuating mechanism, characterized in that it contains a housing inside which a safety shutter, a transfer charge, an electric detonator, including a sleeve with an explosive charge and an initiator mounted on a block with current leads, are installed, while the initiator is made in the form of a low-voltage semiconductor energy converting element, and the explosive charge consists of two attachments, the output, made of high-density secondary explosives, and initiating avesci associated with the semiconductor energy converting element, wherein the initiating hinge is made of the explosive material diperchlorate (5-nitrotetrazolato) pentaamine cobalt (III), while the height of the initiating hinge along the longitudinal axis of the charge is made from the condition that the combustion of the initiating hinge transfers to detonation when the semiconductor energizing element is activated .2. The method of applying the safety-actuating mechanism according to claim 1, characterized in that in the housing of the safety-actuating mechanism containing a safety shutter, a transfer charge, an electric detonator is installed, including a sleeve with an explosive charge and an initiator, which is used as a low-voltage semiconductor energy converting element, mounted on a block with current outputs, while the explosive charge is made of two hinges, and the output hinge is performed and h of high-density secondary explosive, and the initiating sample is made of explosive diperchlorate (5-nitrot

Claims (2)

1. Safety-actuating mechanism, characterized in that it contains a housing inside which a safety shutter, a transfer charge, an electric detonator, including a sleeve with an explosive charge and an initiator mounted on a block with current leads, are installed, while the initiator is made in the form of a low-voltage semiconductor energy converting element, and the explosive charge consists of two attachments, the output, made of high-density secondary explosives, and initiating avesci associated with the semiconductor energy converting element, wherein the initiating hinge is made of the explosive material diperchlorate (5-nitrotetrazolato) pentaamine cobalt (III), while the height of the initiating hinge along the longitudinal axis of the charge is made from the condition that the combustion of the initiating hinge transfers to detonation when the semiconductor energizing element is activated . 2. The method of applying the safety-actuating mechanism according to claim 1, characterized in that in the housing of the safety-actuating mechanism containing a safety shutter, a transfer charge, an electric detonator is installed, including a sleeve with an explosive charge and an initiator, which is used as a low-voltage semiconductor energy converting an element mounted on a block with current leads, while the explosive charge is made of two hinges, and the output hinge is of high-density secondary explosive, and the initiating sample is made of explosive of dipechlorate (5-nitrotetrazolato) pentaamine-cobalt (III), which is paired with a semiconductor energy-converting element, while the height of the initiating sample along the longitudinal axis of the charge is selected from the condition that the initiating sample is transferred to detonation when a semiconductor energy-converting element is triggered, after which, under the action of forces arising from the shot, the safety cocking is ensured -executive mechanism: transfer the safety shutter to the operating position, thereby closing the fire circuit of the electric detonator - transfer charge, and then apply an electric pulse to the current outputs of the electric detonator, thereby triggering a semiconductor energy-converting element that activates the initiating hitch, the detonation pulse from which the output hitch of the electric detonator is transmitted and further to the transfer charge.