RU2081101C1 - Detonating cord - Google Patents

Abstract

FIELD: explosive facilities. SUBSTANCE: cord contains core of plastic explosive substance surrounded with protective polymer shell made of two varnish layers and reinforced with threads, which are disposed on surface of the first varnish layer and secured there with second varnish layer. Protective layer is covered with reinforcing shell made of plastic polymer and additionally reinforced with threads arranged parallel to cord axis. EFFECT: improved structure. 2 dwg

Description

 The invention relates to explosive devices and can be used in the mining, coal and oil industries, construction in flooded conditions and aggressive environments when transmitting a detonation signal to the executive charges.

 Known detonating cord (DS) [1] which contains a core of explosives, a shell of sequentially located layer of flame retardant composition, tape and filament braids and a sealing coating of extruded plastic.

 The disadvantages of this design include the low strength of the cord. This is because the braid threads have the ability to stretch when tensile loads are applied, and the core strength is determined only by the strength of the composition. In addition, the threads, when tensile loads are applied, rub each other at the contact point.

 As a prototype selected DS [2] to one degree or another devoid of the disadvantages of the previous analogue. This LH will contain an explosive core of phlegmatized explosives, a protective shell made of a solid polyvinyl chloride tape surrounding the explosive core itself, and a multilayer fiber yarn placed on the tape; a shell containing cooling material and a polymer placed on the yarn; a solid polymer tape placed on a cooling shell; twisted fiber placed on the tape, as well as an outer sheath of flexible polyvinyl chloride, located directly on the tape.

 However, this DS also has limited operational capabilities, due to the insufficient tensile strength of the phlegmatized explosive core and the possibility of self-defeat at the intersections during loop formation, leading to the refusal to propagate detonation.

 Thus, the invention is aimed at solving the problem of expanding the operational capabilities of the LH with the exception of the possibility of self-defeat at the intersection during loop formation and the exclusion of failures in the propagation of detonation. The technical result is expressed in the redistribution in the structure of the joint between the layers of tensile axial loads applied to the core of the joint.

 This is achieved due to the fact that the detonating cord containing the explosive core, a protective polymer shell, directly surrounding the core and the outer shell of polymer threads, according to the invention is equipped with a reinforcing shell, the protective polymer shell in it is reinforced with threads, made of two layers of varnish, and the threads located on the surface of the first layer of varnish and fixed on it with a second layer of varnish, and the reinforcing shell is made of plastic polymer, reinforced with threads parallel to about the axis of the cord, and placed on a protective shell, while the explosive core is made of plastic explosive.

 The presence of distinctive features in relation to the prototype allows us to conclude that the technical solution meets the criterion of "NOVELTY."

 In FIG. 1 and 2 show the design of the detonating cord. It contains a core 1 made of plastic explosives (BB), and three shells. The first layer 2 of the protective shell immediately adjacent to the core 1 is made of varnish having high adhesion to the material BB and the material of the subsequent layer 3 made of varnish, which is impregnated and with which the next layer of synthetic reinforced yarns is fixed 4. Layers 2, 3 and 4 play the role of a protective shell against aggressive media of the core 1. Directly on this layer is a reinforcing shell made of plastic polymer 5 reinforced with synthetic threads 6, which are parallel to the core 1. prochnyayuschaya sheath 7 surrounded by an outer sheath of polymeric fibers.

 DS works as follows.

 Upon initiation of the core explosive 1, detonation propagates along the cord. At the same time, the constructive implementation of the cord provides a stable and high detonation speed and low lateral effect.

 The varnish used to coat the core 1 from a plastic explosive forms a uniform film of thickness, which is flexible, gas tight, resistant to oils, esters, hydrocarbons and various types of organic solvents.

 This allows, in combination with subsequent layers of the shell, to provide a tight and durable connection to the core of the detonating cord into a single mechanical unit, which during operation makes it possible to exclude the formation of non-contacting cracks and voids inside the shell.

 When a tensile axial load is applied, the longitudinal threads 6 of the reinforcing shell perceive the load on themselves. In this case, the explosive core 1 is not subjected to mechanical stress, which ensures high performance and stability of the cord under conditions of axial tensile stress on the cord to 250 kg or more.

 The introduction of a reinforcing shell allows, due to an increase in the thickness of the inert layer between the cords intersecting during loop formation, to eliminate self-defeat, and also to completely eliminate the possibility of unauthorized initiation of the firearm, which significantly increases its reliability and safety of blasting. Along with this, the weak lateral effect of such a cord eliminates the “burn-out” (ineffective low-speed explosive decomposition) of explosives in wells and drill holes, which will lead to savings in explosive materials during blasting in the mining industry and increase the efficiency of explosives in a well or hole.

Thus, the use of the invention extends the operational capabilities of the detonating cord, as:
Strength increases; tensile effects on the explosive core are virtually eliminated;
the flexibility of the cord is maintained in the temperature range (-40) - (+ 40) ^o C;
the possibility of self-defeat at intersections during loop formation, leading to the rejection of the propagation of detonation, is excluded;
the efficiency of blasting is increased, the side effect is weakened (excluded), which leads to the complete elimination of the burning of explosives in wells, screws, etc.

operability is maintained during repeated bends with a radius of 2.5 mm;
increased resistance to water (without limitation of exposure time), to aggressive environments, both acidic and alkaline (pH = 5-9), to petroleum products;
sensitivity to external influences decreases:
mechanical (strikes, impact, compression, etc.);
thermal (does not explode even in open fire).

Claims (1)

 Detonating cord containing an explosive core, a protective polymer shell directly surrounding the core, and an outer shell of polymer threads, characterized in that it is provided with a reinforcing shell, the protective polymer shell is reinforced with threads, made of two layers of varnish, and the threads are located on the surface of the first layer varnish and mounted on it with a second layer of varnish, and the reinforcing shell is made of plastic polymer, reinforced with threads parallel to the axis of the cord, and placed on a protective the shell, while the explosive core is made of plastic explosive.

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