RU2053988C1 - Detonating cord - Google Patents

Abstract

FIELD: mining and construction industry. SUBSTANCE: cord has charge of high explosive positioned in polymeric reinforced enclosure and sealing caps secured on cord ends. Polymeric enclosure is provided with longitudinal rigidity ribs. Ratio of rib height and minimum enclosure thickness is 0.35-0.75. Sealing caps are made from soft or specifically soft steel with rupture force equal to 30-45 kgf/mm². EFFECT: increased efficiency and enhanced reliability in operation. 1 dwg

Description

 The invention relates to detonating cords and can be used to transmit detonation to explosive charges at a distance.

Known detonating cord of circular cross section, the explosive charge of which is placed sequentially in a shell of cotton yarn and in a tube of PVC compound [1]
However, the detonating cord, the shell of which is made by extrusion of polyethylene onto the surface of the explosive charge or the composition of polyethylene reinforced with synthetic threads, is more technologically advanced and reliable in operation. A cord of circular cross section, at its ends there are installed sealing aluminum caps, crimped at the end on the surface of the shell [2]
This technical solution is taken as a prototype.

 The disadvantages of the known cord are high ringing when unwinding coils, relatively low detonation speed (about 5.8-6.4 thousand m / s) and high consumption of non-ferrous metal caps. When ringing in blasting lines, twists and turns are formed, which lead to failures (the termination of the transmission of detonation). With decreasing temperature, and especially at low sub-zero temperatures, the ringing increases and the installation of explosive lines is extremely difficult.

 The aim of the invention is to increase the reliability of the cord, increasing the speed of detonation and saving non-ferrous metals.

This is decided by the fact that the polymer shell of the detonating cord is made with longitudinal stiffeners, the height of which relates to the minimum shell thickness of 0.35-0.75, and the caps are made of mild or extra soft steel with a tensile strength of 30-45 kgf / mm ² .

 The essence of the invention lies in the fact that the ribs on the surface of the cord are formed due to the configuration of the matrix of the extrusion head, extruding longitudinal grooves between which the ribs are formed, without changing the outer diameter of the cord. In this case, the shell is hardened and compacted, adhesion to the braid is strengthened, the core of the explosive cord is crimped evenly, which leads to an increase in detonation.

It was experimentally established that aluminum caps were not suitable for a ribbed elastic cord, first of all, reliable cap obturation in the shape of the outer surface of the cord with an increased detonation speed and power was not obtained. Mild or extra soft steel like OM, 08KP, 08PS, 10KP, M08KP satisfying the requirements of obturation, as well as sealing, having characteristics: temporary tensile strength 25-45 kgf / mm ² , elongation 17-23%. Deep-drawn caps up to 16 mm are reliably crimped the surface of the cord, while the integrity of the cap is not violated.

 In addition to the above positive result, the use of steel caps amounted to savings in non-ferrous metals.

 The choice of the ratio of the height of the ribs to the minimum cross-section of the cord sheath 0.35-0.75 is established depending on the strength characteristics and elasticity of the sheath material, the detonation velocity, significantly exceeding 6200 m / s. The DSHE-12 cords were made with stiffeners: 0.1, 0.15, 0.2, 0.25, 0.3 and 0.35 mm. Number of ribs 5, caps steel. The minimum shell thickness is 0.4 mm. The ratio of the height of the ribs to the thickness of the shell amounted to: 0.25; 0.375; 0.5; 0.625; 0.75; 0.875. The manufactured cords were tested in the volumes of acceptance tests and periodic tests according to GOST 6196-78.

The results of acceptance and periodic testing of cords with ratios of 0.25; 0.375; 0.5; 0.625; 0.75 positive these cords correspond to GOST 6196-78. String Option ratio 0.875 (H stiffeners 0.35 mm) corresponds to GOST 6196-78 on elasticity violation occurred when membrane integrity kinking cord segment 90 ^on both sides alternately. To determine the detonation velocity and strength characteristics, the cords of all variants were additionally tested in large quantities.

 The test results are shown in the table of the dependence of the detonation velocity on the height of the stiffeners and tensile strength on the height of the stiffeners.

Of all the cord options, the worst performance indicators (elasticity and tensile strength) of the cord option with a ratio of 0.875 (the height of the stiffeners is 0.35 mm), which either do not meet or at the limit according to GOST 6196-78: did not pass the test for elasticity and tensile strength has a break value of the cord 64 kgf (according to GOST 6196-78 not less than 60 kgf). The best results on the detonation speed of cords with a greater height of stiffeners. Optimal options 0.35-0.75 in all respects correspond to GOST 6196-78, i.e. the boundary ratio of the height of the ribs to the thickness of the shell can be 0.35-0.75, which corresponds to the height of the ribs equal to 0.15-0.3 mm. Koltsuemost all variants was tested after storage bays cords at temperatures -50 ^{° C} and + 65 ° ^C. After inlets unwinding at minus 50 ^C. serial cord when removing it with tensile stress formed in an annular spiral. Cords with stiffeners tended to contract, but not into a ring-shaped shape, but wave-like and the height of such waves decreased for cords with a greater height of stiffeners, i.e., such a wave-like shape significantly reduces the possibility of formation of coils and twists on the cords during the installation of explosive lines and, accordingly, failures in the transmission of detonation of explosives to a distance.

 The manufacture of prototypes, a wide range of tests and experimental studies with positive results allow us to consider the proposal of the applicants to meet the criteria of the invention: "industrial applicability".

 Comparison of the proposed technical solution with the prototype and analogues in the field of manufacturing detonating cords allows us to consider it in accordance with the criteria of the invention of "novelty and inventive step".

 The invention is illustrated in the drawing.

 The detonating cord contains a sheath 3, reinforced with synthetic threads 2, a charge BB1 placed in the sheath, and sealing caps 4 at the ends of the cord.

 Device operation: the cord is unwound without turns and twists, a detonator caps or an electric detonator is attached to one end of the cord, the other end of the cord is attached to the explosive charge. Upon initiation of CD or ED, detonation with a cord is transferred to the explosive charge and initiates it.

Claims (1)

A KNOCKING CORD containing a blasting explosive charge placed in a polymer reinforced with a sheath and sealing caps at the ends of the cord, characterized in that the polymer sheath is made with longitudinal stiffeners, the height of which relates to the minimum shell thickness of 0.35 - 0.75, and the sealing caps are made of mild or extra soft steel with a tensile strength of 30 - 45 kgf / mm ² .

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