DE1164301B - Firedamp proof detonator - Google Patents

Description

Firedamp-proof detonator The detonator of conventional design consists of a cylindrical metal shell loaded with the detonating charge Copper or aluminum.

In addition to the specific intensity, des respective explosive the effective surface of the detonator decisive, so the area covered by the boundaries of the injected primer and explosive device is formed. Here is between the bottom component of the detonator and the to distinguish cylindrical side components according to measurements taken Per. Area unit are approximately in the ratio 2: 1. The initiating effect of the soil component is therefore much stronger than the initiation pulse of the side walls. You will therefore always strive to ensure that the soil component takes effect when it is ignited by arranging the detonator or connection accordingly with the explosive to be initiated.

It has been shown, however, that this preference for bottom ignition cause a serious disadvantage due to the detonator in a special case can, namely when using these ignitions in firedamp explosives and in the presence of striking weather, d. H. Methane-air mixtures.

With the modern detonators with a highly compressed secondary charge the directed jet of the floor component has such an intense ignition effect, that it can ignite the methane-air mixture and trigger a firedamp explosion. The cause of the jet is the interaction of the bottom of the detonator with the cylindrical envelope, in the sense of a ring shaped charge, the directed effect is reinforced by the usual inner cone.

In order to avoid firedamp explosions, it must be prevented that such an intense and powerful energy beam can come about. According to the present invention, this is achieved in that the capsule bottom is drawn out to a point which has a height which is about twice the capsule diameter is equivalent to.

It is known that the capsule base for the purpose of easier insertion the capsule into the explosive charge with a tip. But it wasn't there thought of achieving firedamp resistance to the detonator. This effect could not be recognized either, because in these known designs the height of the pointed part was made only about the same size as the capsule diameter or at most slightly larger, which, however, by the present invention intended firedamp safety can not yet be achieved. Namely, it could be established be that it is at such a height of the pointed extended part that it is about corresponds to twice the capsule diameter, a sufficiently pointed and slim design is achieved, which is the additional initiation ability feared in the case of flammers completely eliminated. Experiments have shown that with such an implementation of the pointed part, the total length of which from the cylindrical base to the tip is about the twice the cylinder diameter, the bottom component is largely eliminated is that the detonator does not leave any traces on the usual lead plate. The prerequisite for achieving the intended effect is among all Under certain circumstances the formation of a sharp point, there one, even if it is so small Flat bottom enables a jet formation.

The execution can take place in various ways, for. B. can be the top Part pyramidal, so with sharp corners, be designed, or z. B. after the type of ogival storey construction.

F i .g. 1 with the section A-B represents a conical shape, F i g. 2 with the section C-D is a pyramid shape as an example.

Claims (2)

Claims: 1. Firedamp proof detonator with to one Tip pulled-out capsule base, characterized in that it becomes a tip The extended part of the capsule shell has a height which is approximately twice the capsule diameter is equivalent to. 2. Detonator according to claim 1, characterized in that the tip Part of the capsule shell is conical or pyramidal. Considered References: U.S. Patent Nos. 2,036,511, 609,963.