RU2706994C1 - Intermediate detonator - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: invention relates to means of initiating charges of industrial explosives, namely to intermediate detonators intended for initiation of well and other charges of industrial explosives. Intermediate detonator comprises retainer, cylindrical or cylindrical stepped case with explosive and initiation means arranged therein. Inside the housing there may be a paper tube. Retainer represents a hollow truncated cone, on the smaller side is closed by a bottom, and on the larger side in the end face there are elastic lobes with bent ends at an angle. Along edge of retainer bottom there are two holes for arrangement of impact-wave tube or wires of electric detonator, and in the center there is an opening with stops along the edge for arrangement of cylindrical or cylindrical stepped housing. On one side the cylindrical housing is covered with a cover, on the other side it has a bottom with one or two seats for the detonating cap and a coaxially located hollow cylindrical projection with diameter exceeding the diameter of the housing with one or two slots in the wall for placement of the shock-wave tube or wires of the electric detonator. Cylindrical stepped housing on the side of stage of smaller diameter is closed by blind bottom, and on side of step of larger diameter is closed by cover with capsule seat.

EFFECT: technical result consists in improvement of reliability and efficiency of industrial explosive initiation with intermediate detonator, improvement of convenience and safe handling of intermediate detonator at charging of rising wells.

1 cl, 4 dwg

Description

The invention relates to means for initiating charges of industrial explosives (BB), and in particular to intermediate detonators designed to initiate borehole and other charges of industrial explosives using devices of non-electric initiation systems (NSI) or various types of electric detonators in rising wells in open and underground mining .

Known intermediate detonator (PD) (RF patent for the invention No. 2333452), which contains a cylindrical body made with a shank, a cover made with a socket under the detonator capsule and located with the possibility of fixing on the opposite to the shank end of the body and an explosive charge placed in the housing substances. The inner surface of the housing is associated with the inner surface of the shank on a conical surface. The explosive charge is made of bulk explosives. The disadvantage of this design is the difficulty in compaction of the bulk explosive, since when closing the lid with the capsule socket of the casing, with the bulk explosive poured into it, only the redistribution of the explosive occurs, and excess material is squeezed out of the casing, as well as the impossibility of fixing and centering the intermediate detonator in a rising well.

Known design of the checker-detonator (RF patent for the invention No. 2213929), intended for use as an intermediate detonator for initiating industrial explosives. The detonator bomb includes a housing in which a charge of a free-flowing explosive, for example, phlegmatized RDX, is placed in a sealed polymer housing in the form of a cylindrical container with a wall thickness of 0.2-0.8 mm and a cap with thread for connection with a cylindrical container. A groove is made on the surface of the cylindrical container, located diametrically in the bottom part along the generatrices of the cylindrical part and ending with ledges in the upper part of the cylindrical container, for placement of initiation means in it. The disadvantage of this design is the difficulty in manufacturing and the difficulty in pressing loose explosives in a thin-walled polymer case, the inability to fix and center the intermediate detonator in an uphole.

The prototype of the claimed invention is an intermediate detonator (RF patent for utility model No. 93521) containing a cylindrical body with explosive, a cover with slots for accommodating initiating means, and an intermediate persistent insert with elastic antennae-clips. The disadvantage of this design is the impossibility of pressing loose explosives, the impossibility of fixing and centering the intermediate detonator in an upstream well, the impossibility of using direct initiation of a borehole charge, and therefore it is impossible to increase the power of the initiating impulse of the PD, the reliability and efficiency of initiation of the explosive charge.

The technical result of the invention is to increase the reliability and efficiency of the initiation of an industrial detonator by an intermediate detonator, to increase the quality and safety of blasting operations, to increase the manufacturability of manufacturing an intermediate detonator, to expand its scope by changing the design of PD.

The technical result is achieved in that the PD has a simple structure and consists of a retainer, a hollow cylindrical or hollow cylindrical step housing with an explosive and an initiation means located inside it, a paper sleeve may be located inside the housing. The latch is a hollow truncated cone, which is closed with a bottom on the smaller side, and elastic petals with ends bent at an angle are located on the opposite side. There are two openings along the edge of the bottom of the clamp to accommodate the shock wave tube (UHT) or wires of the electric detonator (ED), and in the center there is a hole to accommodate a cylindrical or cylindrical stepped housing, there are stops at the edge of this hole inside the clamp. The cylindrical housing is closed on one side by a lid and, on the other hand, has a bottom in the center, one or two slots for the detonator capsule of the initiating means are located, and a hollow cylindrical protrusion with a diameter exceeding the diameter of the housing with grooves in the wall is placed coaxially for accommodating UHF or ED wires. The cylindrical step housing on the side of the step of smaller diameter is closed with a blank bottom, and on the side of the step of larger diameter it is closed by a lid with a capsule socket. The cover in the hollow cylindrical or hollow cylindrical step housing is fixed by any of the known methods, for example, by means of protrusions on the cover and the body or by means of crushing ribs.

The paper tube strengthens the cylindrical body, and the lid allows you to extrude loose explosives to the required density. Holes along the edge of the bottom of the retainer, the space between the stops and the cylindrical protrusion protect the UVT or the ED wires from damage against the walls, the bottom of the well or the charging hose, the elastic petals center and hold the PD in the well. The latch and the cylindrical protrusion in the end face of the cylindrical body or the cover of the cylindrical step housing allow mechanized loading, the use of PD for direct, reverse, multipoint and counter initiation of borehole charges.

In the manufacture of PD, its geometric dimensions are selected taking into account the borehole diameter, parameters of the charging equipment and the required mass of the charge of the intermediate detonator, which ensures reliable centering, retention of the intermediate detonator in the rising wells and effective initiation of the borehole charge.

The essence of the solutions proposed in the description of the PD is illustrated by the drawings:

in FIG. 1 shows a longitudinal section of a PD with a cylindrical body for direct initiation of a borehole charge, where: 1 - a cylindrical protrusion, 2 - a cylindrical body, 3 - a paper tube, 4 - explosive, 5 - a cover, 6 - a capsule socket in the body, 7 - a capsule - detonator, 8 — hole for the cylindrical body, 9 — hole for the shock-absorbing device, 10 — elastic retainer tab, 11 — groove, 12 — charging hose, 13 — emphasis, 14 — UVT, 19 — bottom of the retainer body.

- in FIG. 2 shows a longitudinal section of a PD with a cylindrical body for the reverse initiation of a borehole charge, where: 1 is a cylindrical protrusion, 2 is a cylindrical body, 3 is a paper tube, 4 is an explosive, 5 is a cover, 6 is a capsule socket in the body, 7 is a capsule - detonator, 8 — hole for the cylindrical body, 9 — hole for the shock-absorbing device, 10 — elastic retainer tab, 11 — groove, 12 — charging hose, 13 — emphasis, 14 — UVT, 19 — bottom of the retainer body.

in FIG. 3 shows a longitudinal section of a PD with a cylindrical stepped case for direct initiation of a borehole charge, where: 4 - explosive, 7 - detonator capsule, 9 - hole for air-blast, 10 - elastic retainer tab, 12 - charging hose, 13 - stop, 14 - UVT, 15 - cover, 16 - capsule socket in the cover, 17 - hole for a cylindrical step housing, 18 - a cylindrical step housing, 19 - the bottom of the latch housing.

in FIG. 4 shows a longitudinal section of a PD with a cylindrical stepped case for the reverse initiation of a borehole charge, where: 4 - explosive, 7 - detonator capsule, 9 - UVT hole, 10 - elastic retainer tab, 12 - charge hose, 13 - stop, 14 - UVT, 15 - cover, 16 - capsule socket in the cover, 17 - hole for a cylindrical step housing, 18 - a cylindrical step housing, 19 - the bottom of the latch housing.

An intermediate detonator with a cylindrical body, the essence of the solutions of which are described above and illustrated in FIG. 1 for direct initiation of a downhole charge works as follows. In the hole 8, located in the center of the bottom of the housing 19 from the side of the elastic petals 10, we introduce a cylindrical housing 2, then from the same side into one of the two holes 9 to accommodate the UHT 14 located along the edge of the bottom of the latch, we introduce the device of a non-electric initiation system and output it from another hole, then insert the detonator capsule 7 into the capsule socket in the housing 6 of the cylindrical housing 2, and put the UVT into the groove 11 located in the wall of the cylindrical protrusion 1. Put in this way the PD is put into the wellhead and abuts against an cylindrical protrusion with a charging hose or a chisel 12 we send it into the well until the cylindrical body is fully introduced into the explosive charge. The initiating pulse propagating through the channel of the shock wave tube of the NSI device ignites the incendiary composition, from which the blasting explosive is initiated in the detonator capsule, which then initiates the blasting explosive charge in the intermediate detonator, which in turn initiates the borehole charge, which completes work PD.

An intermediate detonator with a cylindrical body, the essence of the solutions of which are described above and illustrated in FIG. 2 for the reverse initiation of the borehole charge works as follows. In the hole 8, located in the center of the bottom 19 of the latch housing on the opposite side from the elastic petals 10, we introduce a cylindrical body 2, then from the side of the elastic lobes in one of the two holes 9 to accommodate the UHT 14 located along the edge of the bottom of the latch we introduce a device of a non-electric initiation system, then insert the detonator capsule 7 into the capsule socket in the housing 6 of the cylindrical housing 2, and put the UVT into the groove 11 located in the wall of the cylindrical protrusion 1. We insert the PD thus assembled into the cylindrical housing m in the charging hose or rammer 12 and resting them in abutment on the bottom of the retainer 13 be sent to the loading well and produce. The initiation of this PD and the borehole charge is carried out similarly to the initiation of the PD described above with a cylindrical body for direct initiation of the borehole charge and explained in FIG. one.

An intermediate detonator with a cylindrical step housing, the essence of the solutions of which is described above and illustrated in FIG. 3 for direct initiation of a borehole charge works as follows. In the hole 17, located in the center of the bottom 19 of the latch housing from the side of the elastic lobes 10, we introduce a cylindrical step housing 18, then from the same side into one of the two holes 9 to accommodate the UHT 14 located along the bottom edge we introduce the device of the non-electric initiation system and output it from another hole, then insert the detonator capsule 7 into the capsule socket in the cover 16 located in the cover 15. The PD assembled in this way is inserted into the wellhead and abuts against the stops 13 at the bottom of the retainer or into the cover 15 with a charging hose or Aboynik 12, we send him into the well until the full implementation of the cylindrical step housing in the explosive charge. The initiation of this PD and the borehole charge occurs similarly to the above described initiation of the PD with a cylindrical body for direct initiation of a borehole charge and explained in FIG. one.

An intermediate detonator with a cylindrical step housing, the essence of the solutions of which is described above and illustrated in FIG. 4 for the reverse initiation of the borehole charge works as follows. In the hole 17, located in the center of the bottom 19 of the latch housing on the opposite side from the elastic petals 10, we introduce a cylindrical step housing 18, then from the side of the elastic petals in one of the two holes 9 to accommodate the UHT 14 located along the bottom edge we introduce the device of a non-electric initiation system, then insert the detonator capsule 7 into the capsule socket in the cover 16 located in the cover 15. The PD assembled in this way is inserted by the cylindrical stepped case into the charging hose or chute 12 and rests against the stops 13 at the bottom of the latch, send it to the well and make loading. The initiation of this PD and the borehole charge occurs similarly to the above described initiation of the PD with a cylindrical body for direct initiation of a borehole charge and explained in FIG. one.

Industrial tests of the intermediate detonator of the proposed design were carried out in the underground mines of the Dukat, Lunnoye and Goltsovoye mines of Magadan Silver JSC, at the Sheregesh mine and the Rasvumchorrsky mine. The test results showed that the design of the PD allows you to easily and quickly position it anywhere in the well, set the desired direction of propagation of the detonation wave in the explosive charge, use it in rocks of any strength, as a result of which its field of application expands, efficiency, reliability, manufacturability and blasting safety.

Claims (1)

An intermediate detonator containing a retainer and a cylindrical body with explosive, characterized in that the retainer is made in the form of a hollow truncated cone, is closed by a bottom on the lower side, and on the opposite side are elastic petals with ends bent at an angle in the amount of at least three pieces , in the bottom of the latch on the edge there are two holes for placing a shock wave tube (UHT) or wires of an electric detonator (ED), in the center of the bottom there is a hole for placing a cylindrical or cylindrical of a stepped case, at the edge of this hole inside the clamp there are stops for the charging hose in an amount of at least three, the cylindrical body is closed on one side by the bottom, in the center of which there are one or two slots for the detonator capsule and a hollow cylindrical protrusion with a diameter exceeding the diameter is coaxially located case with one or two grooves in the wall, and on the other hand is closed by a lid, or a cylindrical step case, which is closed with a blank bottom on the side of the step of smaller diameter, and on the side of the step is larger the diameter is closed by a lid with a capsule socket; a paper tube may be located inside the case.

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