RU2213321C2 - Blasting cartridge-detonator - Google Patents

Abstract

FIELD: blasting operations, initiation of industrial explosives of all types. SUBSTANCE: blasting cartridge-detonator includes explosive charge of predominantly cylindrical shape with through conduit to house borehole signal conductors and blind hole to accommodate blasting initiation cap. Explosive charge has additional blind hole for second blasting initiation cap. EFFECT: reduced consumption of blasting cartridges-detonators. 2 dwg

Description

 The invention relates to the field of blasting and can be used to initiate all types of industrial explosives with all currently used initiation systems.

In recent years, when the cost of explosives has risen sharply, in the structure of their consumption the volumes of use of the simplest and water-containing explosives, cheaper utilized gunpowders with low detonation susceptibility have increased significantly. To initiate utilized gunpowder and ballistic compositions, 2-3 standard T-400G detonator blocks are required [1]. The presence of RDX and gunpowder (granipores) in industrial explosives excludes the possibility of using mechanized disassembly of failed borehole charges, which further increases the requirements for the initiation tools used in terms of reliability. Standard T-400G checkers-detonators can no longer provide reliable initiation of well charges, since they have at least two significant drawbacks:
- unsatisfactory reliability of operation from the LH after a long (for several days) stay in the form or aqueous solutions of salts (up to 30% or more failures):
- incompatibility with new non-electric initiation systems.

 Due to the large-scale introduction of non-electric initiation systems into the technology of drilling and blasting operations, as well as due to emerging changes in the structure of consumption of explosive materials, a need arose for the development of more advanced detonator blocks.

 In recent years, the domestic industry has mastered the production of new checker-detonators, such as T-900G, DPU, THF, which, according to the main indicators, are at the level of foreign analogues and allow using all known means of initiation (electric detonators, detonating cord, non-electric initiation systems) [1 ]. Preliminary tests of DPU detonator blocks and modifications of THF detonator blocks showed their reliable susceptibility to detonation from both LH and non-electric initiation systems (Edilin, Nonel, SINV) in wells of any water cut for at least 15 days.

 As you know, when blasting in difficult conditions (large depth of wells, water cut, the use of low-sensitivity explosives in borehole charges), mandatory duplication of borehole explosive chains is performed. For this purpose, two intermediate detonators are placed in the well: one in the bottom of the borehole charge, the second in the wellhead.

 New detonator blocks reliably initiate a borehole charge - therefore, it is not necessary to install two blocks in it, but duplication of borehole explosive chains is necessary, however, there is no way to connect two borehole signal conductors and two capsular initiating means with one detonator block.

The known method of duplication of initiation systems with the installation of two intermediate detonators has the following disadvantages:
- the optimal initiation mode is violated (the "bottom" initiation of borehole charges is considered optimal);
- the number of elements of the borehole charge most sensitive to mechanical influences increases, which undoubtedly complicates the elimination of single or group failures of borehole charges in case of their occurrence.

 The invention solves the problem of ensuring the possibility of duplication of borehole explosive circuits with the installation of a single intermediate detonator, consisting of a checker-detonator, two borehole signal conductors and two capsule initiating means.

 The technical result obtained by using the invention is to reduce the consumption of detonator blocks of the claimed design when blasting in difficult conditions while maintaining the necessary reliability of the initiation of the charge and increasing the safety of work in the process of eliminating possible single or group failures.

 The specified technical result is obtained due to the fact that in the known detonator block, which includes a predominantly cylindrical explosive charge with a through channel for accommodating the downhole signal conductors and a blind hole for the initiation capsule means, an additional blind hole for the second capsule means is made in the explosive charge initiation.

 The implementation of an additional blind hole for a second capsular initiation means in the detonator block allows you to connect two threads of the shock wave tube of modern initiation systems (Nonel, Edilin, SINV, etc.) to it and place two detonator capsules in the blind holes. Such a duplication system makes it possible to carry out the “bottom” initiation of a borehole charge most effective from the point of view of the fracture process, while the downhole signal conductors, in particular shock-wave tubes of non-electric initiation systems, do not have lateral energy release, which eliminates the burn-out of the borehole charge or reduces it the sensitivity that occurs when used in borehole explosive circuits LH. In addition, modern non-electric initiation systems have high safety against mechanical stresses, provided by the exclusion of initiating explosives from the elements of the system. So, the initiating charge of the detonator capsule of the cited systems is made without the use of initiating explosives. Its functioning is based on the transition of combustion to detonation. The low sensitivity of modern initiation systems to mechanical stresses, the possibility of "bottom" initiation, which excludes the presence of dangerous elements of the systems along the entire height of the ledge, allows (in case of single or group failures of borehole charges to occur) mechanized disassembly of the rock mass with the necessary degree of safety against unauthorized explosion of a charge or part thereof.

 The schematic diagram of the detonator checkers is shown in the drawings. Figure 1 shows the device of the checkers, and figure 2 is a diagram of the connection of the checker-detonator with elements of a non-electric initiation system.

 The detonator plate includes a charge of an explosive substance 1 of predominantly cylindrical shape, in which a through channel 2 is made for accommodating the downhole signal conductors and two blind holes 3 for the capsule means of initiation. In the end part of the checker, from the side of the blind holes 3, a recess 4 can be made for placement, within the dimensions, in the checkers of the rubber tubes installed at the junction of the detonator capsule with the shock wave tube of non-electric initiation systems.

 In the manufacture of an intermediate borehole detonator (in the case of non-electric initiation systems), one end of the shock wave tube 5 with the detonator capsule 6 is threaded through the through channel 2 and the detonator capsule 6 is fixed in the blind hole 3. In this case, one end of the rubber tube 7 should placed in the through channel 2, and the other in the blind hole 3. For a more reliable connection, you can make a turn of the shock wave tube around the detonator block. The duplicate string of the downhole signal conductor is also threaded through the through channel 2 and the detonator capsule 6 is fixed in the second blind hole of the detonator block 3.

 Thus, the implementation of the second additional blind hole for the initiation systems capsule in the detonator block fundamentally changes the pattern of initiation of a borehole charge when working in difficult conditions, while ensuring an optimal charge initiation mode (bottom), saving detonator blocks and the possibility of safer lead work in the event of the forced elimination of single or group failures of borehole charges.

Claims (1)

 A detonator-checker comprising a predominantly cylindrical explosive charge with a through channel for accommodating downhole signal conductors and a blind hole for capsule initiation means, characterized in that an additional blind hole for a second capsule initiation means is made in the explosive charge.

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