RU2177927C2 - Pentolite detonating slab - Google Patents

Abstract

FIELD: impact action fuzes, applicable in the non-electric initiation system SINV, "Edilin" or "Nonel", as well as for initiation from electric detonators, detonating wires and detonating caps. SUBSTANCE: the detonating slab is made of a mixture containing 50 to 70 percent by mass of trinitrotoluene and 50 to 30 percent by mass of highly dispersed pentaerythrityltetranitrate filled in a cylindrical shell of polymeric material, 0.5 to 3.0-mm thick. The slab has a through duct and a seat for the detonating cap. EFFECT: enhanced strength characteristics of the slab, safety in its manufacture and use, enhanced initiating capacity, reliable initiation of low-sensitivity commercial compounds, aqueous emulsion and water-containing explosives inclusive. 3 cl, 2 dwg, 1 tbl

Description

 The invention relates to percussion fuses, in particular to detonator blocks for industrial blasting, including that it is intended for use in the system of non-electrically initiating SINV, Edilin or Nonel, as well as from detonators, detonating cords, and detonator capsules.

It is used for reliable and safe initiation of wells and other charges of low-sensitivity industrial explosives (BB), including water-containing and water-based explosive with a temperature when charged up to 85 ^o C during blasting on the earth's surface in all climatic regions of the CIS countries.

 Known pressed waterproofing TNT, rectangular blocks with a central channel (OST 84-1366-76), used as explosives for seismic and other types of geophysical work on the earth's surface, as well as intermediate detonators for open blasting of mountain and non-negative nature . Known pressed waterproofed trotyl, trotylhexogen detonator blocks with a central channel of the following types: T-400G - pressed waterproofed TNT for blasting in wells of any water cut, including running water, with a charge in the water for up to 6 days; TG-500 - molten TNT-hexogen for blasting in wells of any water cut with an unlimited life of charges in water (OST 84-411-80).

 The closest invention of the same purpose to the claimed combination of features is a detonator-checker according to patent 2089827, application 94043602/02 of 12.13.94, including a cylindrical paper waterproofing housing, in which an explosive charge is placed with a through axial channel under the detonating cord and blind channel under the detonator capsule or electric detonator. Taken as a prototype.

For low-sensitivity, emulsion and hot compositions, the above-mentioned detonator checkers have insufficient initiating ability and low strength, due to both the mixed composition of the explosive material and the displacement of the blind channel under the detonator capsule to one of the walls, as well as the paper case of the product, which leads to cracking drafts and a loss of integrity under the temperature drops, especially significant in the winter, and when used with water-based explosive compositions at a temperature above 85-95 ^o C. those indicated disadvantages have led to failure.

When creating the invention, the task was to obtain a high-performance detonator block with increased initiating ability, increased strength, increased safety, capable of initiating all explosive materials currently used in the mining industry, including low-sensitivity, emulsion and hot compositions. To obtain such a technical result, the proposed detonator block is made in a polymer case with a uniform arrangement of the through channel and the slot for the detonator capsule relative to the outer cylindrical surface of the block and it contains highly active TEN explosive material. The proposed checker-detonator, including a cylindrical body, in which an explosive charge is placed with a through channel and a socket, the inlet openings of which are connected by a recess, made of a mixture containing 50-70 wt. % TNT and 30-50 wt. % pentaerythritetetranitrate (TENA), poured into the body of a polymeric material, and the distances measured by the diameter of the checker from its cylindrical surface to the cylindrical surfaces of the through channel and socket are equal. Mostly in the explosive composition, a highly dispersed heater is used, which makes it possible to obtain high detonation velocity characteristics (V = 7.8-8.2 km / s and a high pressure in front of the detonation wave compared to other used checkers (220 • 10 ³ - 240 • March ¹⁰ kg / cm ^2). Application of PETN provides reliable initiating ability insensitive explosive compositions and water-based, and its superfine preclude separation of the latter in trotyl, promotes uniformity of composition checkers and reduces sensitivity to mechanical in actions at the expense of deeper desensitization PETN with TNT.

 The checker is poured into the casing of polymeric material, which prevents its destruction when charging wells with hot explosive materials and significant melting and ensures guaranteed initiation of wells. The casing is a 0.5–3 mm thick shell with rounded edges at the ends and annular protrusions on a cylindrical surface. The danger is reduced in the manufacture of detonator drafts, since there is no direct contact of the explosive material with the mold metal on the radial and partially end surfaces. The checkers are preserved during transportation (there are no lateral chips, cracks), the safety during the manufacture of the detonator checker and its use at the places of consumption is increased, and the danger during mechanized dismantling of wells is reduced.

 The detonator checker can be made of various weights (500 g, 750 g, etc.).

 The pentolite pit detonator (Fig. 1) contains a through channel and a socket, the inlets of which are connected by a recess. It is made by pouring a mixed explosive 1 into a polymer case (sleeve) 2. The case is a cylindrical shell with rounded edges at the ends and two annular protrusions on a cylindrical surface. From the bottom end, the checker is protected by a disc made of thick paper or cardboard 3, which is installed at the time of filling and can be used as a label.

 The distances measured by the diameter of the checker from its cylindrical surface to the cylindrical surfaces of the through channel and socket are equal to an accuracy of ± 5 mm (see table).

Claims (3)

 1. Checker-detonator, comprising a cylindrical body in which an explosive charge is placed with a through channel and a socket, the inlets of which are connected by a recess, characterized in that it is made of a mixture containing 50-70 wt. % TNT and 50-30 wt. % TENA, poured into the casing of a polymeric material, and the distances measured by the diameter of the checker from its cylindrical surface to the cylindrical surfaces of the through channel and socket are equal.  2. Checker-detonator according to claim 1, characterized in that a highly dispersed heater is used in the explosive composition.  3. Checker-detonator according to claim 1 or 2, characterized in that the casing is a shell 0.5-3 mm thick with rounded edges at the ends and annular protrusions on a cylindrical surface.

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