RU170039U1 - INTERMEDIATE SMALL DETONATOR LOCK - Google Patents

Abstract

The small detonator detonator clamp belongs to the mining industry and is designed to hold and center the intermediate small detonators in boreholes and ascending wells during manual and mechanized loading in underground mines (mines). The intermediate detonator detonator retainer made of polyethylene contains a housing made in the form of a hollow cylinder (hollow cone, hollow truncated cone), the housing is made with flexible petals, located at an angle to the housing, in an amount of at least three, ribs with stops in the form of a ledge (protrusion, annular stop) for an intermediate detonator in an amount of at least three, in the wall and inside the housing there are grooves for a waveguide of a non-electric initiation system or an electric wire clonator, and the implementation of stops in the form of a protrusion and a hole for the waveguide for the intermediate detonator retainer retainer option in the form of a hollow truncated cone increases the accuracy, reliability of retention and centering of the intermediate detonator in the borehole, well, the reliability of the intermediate detonator holding in the retainer body, completely protects the waveguide from possible damage to the walls of the borehole, borehole, and damage from the effects of the charging hose and the face during mechanized and manual loading.

Description

The small detonator detonator clamp belongs to the mining industry and is designed to hold and center the intermediate small detonators in boreholes and ascending wells during manual and mechanized loading in underground mines (mines).

The known design of the device for fixing the charge in the well (RF Patent for utility model No. 76706), intended for use in blasting in seismic exploration. The device for fixing the charge in the well includes a housing with a through window made in the form of an anchor device and equipped with an adapter and a fixing mechanism installed in the said through window, consisting of two spring-loaded petals, the inner ends of which are connected by a common axis installed in the walls of the housing, the upper part the housing is made with a socket in the form of an opening for installing an adapter, with an explosive charge placed in it.

The disadvantage of this design is the presence of an additional device in the form of an adapter, the placement of a charge in it and its installation on the housing of this device, which requires additional time to carry out the work of placing a charge in the adapter housing, the presence of two retaining non-bending spring-loaded petals, which does not allow in mountain rocks precisely in the center of the will axis of the ascending well to fix and reliably hold the charge.

The known design of the device for fixing the charge in the well (RF Patent for utility model No. 65204) containing a charge placed in a housing made in the form of an anchor device consisting of two or more separate cheeks, which are the walls of the housing, rigidly connected with the upper ends of two or more shoulder straps, the lower ends of which are interconnected by means of an anchor lock, which in turn is connected with a charge placed in the housing, the housing is made of plastic, the lower ends of the shoulder straps are interconnected by an anchor lock in ide of the hinge connecting the lower ends of the shoulder straps, made through in the form of a hollow cylinder, separate cheeks are made in the form of arched plates or in the form of a vertically oriented cut imaginary vertical plane into two halves of a plastic pipe, and the charge is established with a gap relative to the walls of the housing and connected with an anchor lock made in the form of a hinge by means of a metal wire.

The disadvantage of this design is that it consists of separate components, which requires additional time to complete the assembly of this device, to place the charge in a plastic case and fasten it to the anchor lock using a metal wire, the presence of two or more separate cheeks , which does not allow to fix and reliably hold the charge in the rocks in the ascending well in rocks.

The prototype of the claimed utility model is an intermediate thrust insert in the design of an intermediate detonator for downhole charges (Utility Model Patent of the Russian Federation No. 93521). In this design, for fixing the intermediate detonator in the borehole, the cover of the intermediate detonator is equipped with an intermediate persistent insert with spring-loaded antennae-clamps located on its side surface that hold it in the borehole, and an annular bead is installed on the cylindrical surface of the body of the intermediate detonator to hold the insert.

The disadvantage of this insert design is that the intermediate persistent insert is non-removable, does not protect the waveguide of the non-electric initiation system or the wire of the electric detonator from possible damage to the borehole wall, which significantly limits the scope of the intermediate detonator, reduces the quality and safety of blasting.

The technical result of the claimed utility model “Intermediate small detonator retainer” is: lack of components, improving the quality and safety of blasting operations, expanding its scope, precise centering and reliable retention of intermediate small detonators in boreholes and ascending wells during manual and mechanized loading in underground workings mines (mines).

The technical result is achieved in that the detonator latch of the intermediate small-sized one contains a body made in the form of a hollow cylinder (hollow cone, hollow truncated cone), the body is made with flexible petals located at an angle to the body in an amount of at least three, ribs with stops in the form of a ledge (protrusion, annular stop) for an intermediate detonator in an amount of at least three, in the wall and inside the housing there are grooves for a waveguide of a non-electric initiation system or of the electrode of the detonator, and the implementation of stops in the form of a protrusion and a hole for the waveguide for the intermediate detonator retainer clamp option in the form of a hollow truncated cone improves the accuracy, reliability of holding and centering of the intermediate detonator in the borehole, borehole, the reliability of holding the intermediate detonator in the retainer body, completely protects the waveguide possible damage to the walls of the borehole, borehole, and from damage from the effects of the charging hose, the face during mechanized and manual loading.

The essence of the proposed solutions is illustrated by drawings.

In FIG. 1 shows an intermediate detonator detonator retainer with an annular stop for an intermediate detonator and a cylindrical body, where: 1 is a cylindrical body; 2 - fixing petals; 3 - internal groove for the waveguide; 4 - ribs inside the body; 5 - ring emphasis. An annular stop and ribs inside the housing serve to reliably center and hold the intermediate detonator inside the housing, to reliably protect the waveguide of the non-electric initiation system or the wires of the electric detonator located inside the housing between the ribs from damage against the borehole wall. The housing and ribs serve as an abutment for the charging hose or downhole during charging.

In FIG. 2 shows a detonator latch of an intermediate small-sized detent with an emphasis in the form of a step on the ribs inside a cylindrical body, where: 1 - a cylindrical body; 2 - fixing petals; 3 - internal groove for the waveguide; 4 - ribs inside the body; 6 - ledge on the ribs for the intermediate detonator. The offset on the ribs and ribs inside the housing serve to reliably center and hold the intermediate detonator inside the housing, to reliably protect the waveguide of the non-electric initiation system or the wires of the electric detonator located inside the housing between the ribs from damage to the borehole wall. The housing and ribs serve as an abutment for the charging hose or downhole during charging.

In FIG. 3 shows an intermediate small-sized detonator retainer with an annular stop for an intermediate detonator, with a cylindrical body, with grooves at the body end and a retainer for a non-electric initiation waveguide or electric detonator wires on the external surface of the body, where: 1 - a cylindrical body; 2 - fixing petals; 4 - ribs inside the body; 5 - annular emphasis for the intermediate detonator; 7 - a groove at the end of the housing; 8 - latch on the outer surface of the housing. The grooves and clips for the waveguide of the non-electric system or the wires of the electric detonator serve to protect them from damage against the wall of the borehole, borehole. The housing serves as an abutment for the charging hose or chute during charging.

In FIG. 4 shows a detonator latch of an intermediate small-sized detonator with a cylindrical body, with ribs and a protrusion on the ribs inside the body, where: 1 - a cylindrical body; 2 - fixing petals; 3 - internal groove for the waveguide; 4 - ribs inside the body; 9 - protrusion on the ribs for the intermediate detonator. The grooves and ribs with a protrusion serve to reliably hold the intermediate detonator inside the housing, to reliably protect the waveguide of the non-electric initiation system or the wires of the electric detonator located inside the housing in the groove or between the ribs from damage to the borehole wall. The housing and ribs serve as an abutment for the charging hose or downhole during charging.

In FIG. 5 shows a detonator latch of an intermediate small-sized with a body in the form of a hollow cone, inside of which ribs with stops in the form of a protrusion are located, where: 1 - the body in the form of a hollow cone; 2 - fixing petals; 4 - ribs inside the body; 9 - protrusion on the ribs for the intermediate detonator. The ribs with a protrusion serve to reliably hold the intermediate detonator inside the housing, to reliably protect the waveguide of the non-electric initiation system or the wires of the electric detonator located inside the housing between the ribs from damage to the borehole wall. The housing and ribs with protrusions serve as an abutment for the charging hose or downhole during charging.

In FIG. 6 shows a detonator latch of an intermediate small-sized with a body in the form of a hollow truncated cone, in the bottom of which there are holes and protrusions, where: 1 - the body in the form of a hollow truncated cone; 2 - fixing petals; 10 - protrusions inside the housing; 11 - hole for placement in it of an intermediate detonator; 12 - hole for placement of a waveguide in it. One large hole serves to accommodate an intermediate detonator in it, at least one small hole serves to accommodate a waveguide of the non-electric initiation system or wires of the electric detonator and protect them from damage against the well wall. The casing and protrusions serve as an abutment for the charging hose or downhole during charging and protect the waveguide located inside the casing between the protrusions from damage against the borehole wall, the charging hose, and the downhole.

In the manufacture of an interim small-sized detonator retainer, its geometric dimensions are selected taking into account the application conditions and the used intermediate detonator, while taking into account the sizes of boreholes, wells, and the overall dimensions of the intermediate small-sized detonator and charging equipment to ensure reliable retention and centering of the intermediate detonator in boreholes and wells.

Design of an intermediate detonator detonator retainer according to the claimed utility model, making a hollow body of a cylindrical, conical shape or in the form of a truncated cone with petals located at an angle to the body, with grooves and clamps under the waveguide, ribs with stops in the form of a ledge (protrusion, ring stop) , stops in the form of a protrusion and holes for the waveguide increases the accuracy, reliability of retention and centering of the intermediate detonator in the hole, well, the reliability of the retention of the intermediate detonator in the housing e retainer, fully protects the waveguide from possible damage to the walls of the hole, the borehole and from damage from the effects of the charging hose, the face during mechanized and manual loading. The absence of components in the design of the latch makes it more technological in manufacturing. The absence of additional operations for the installation and fastening of the intermediate detonator in the retainer body, the possibility of using it in horizontal, downward and ascending at any angle boreholes and wells makes it more reliable, safe, simple and efficient to use, expands its scope, allows you to place an intermediate detonator anywhere in the hole, borehole and set the desired direction of propagation of the detonation wave in the explosive charge, use it in rocks of any fortresses.

Charging a hole, a well using an intermediate detonator retainer, for example, mechanized loading using a non-electric initiation system, and an intermediate detonator retainer made with a cylindrical body and an annular stop on the ribs inside the body, is illustrated in FIG. 7, where: 13 - detonator detent intermediate small; 14 - intermediate small detonator; 15 - capsule detonator of a non-electric initiation system; 16 - waveguide of a non-electric initiation system; 17 - a charging hose of an air charger; 18 - hole (well), and is as follows.

We insert the waveguide of the non-electric initiation system into the groove located inside the retainer case, then we insert the intermediate small-sized detonator into the detonator retainer body and insert the detonator caps of the non-electric initiation system into it, then we insert the intermediate small-sized detonator assembly complete with fis and into the charging hose of the air charger we introduce into the hole (well) a charging machine with automatic feed, after that there is pneumatic charging of the hole (well) yvchatym substance.

The use of a retainer for holding and centering the intermediate detonator in a hole (well) makes it possible to secure blasting operations, improves quality, improves safety and productivity of blasting operations, increases the convenience of explosive personnel.

The industrial use of an intermediate small detonator retainer is possible in holes (boreholes) for manual and mechanized loading with automatic feeding of a charging hose, used in conjunction with non-electric initiating means when breaking rocks with drill holes and borehole charges. The use of an intermediate detonator detonator latch together with intermediate small detonators is possible in the mining industries, where intermediate detonators with the possibility of only manual loading have long been used.

The detonator detectors for intermediate small-sized boreholes and borehole charges according to the claimed utility model were manufactured at JSC "Iskra" in each design and were tested in the underground mines of the mines "Dukat", "Lunnoye", "Goltsovoe" AO Silver Magadan, Magadan, at the Sheregesh mine of Evrazruda JSC in the village of Sheregesh of the Kemerovo Region during blasting with hole charges in the faces of horizontal workings and borehole charges in fans with floor collapse of rock.

Claims (8)

1. The detonator latch of an intermediate small-sized detonator for boreholes and ascending wells, comprising an intermediate small-sized detonator for initiating a borehole, borehole charge, which is characterized in that the casing is made in the form of a hollow cylinder with petals located at an angle to the casing in an amount of at least three , inside along the axis of the housing there are ribs with stops in an amount of at least three, grooves for the waveguide of the non-electric initiation system or wires are located on the body torus. 2. The detonator latch of the intermediate small-sized according to claim 1, characterized in that the housing is made of polyethylene. 3. The detonator latch of the intermediate small-sized according to claim 1, characterized in that the emphasis on the ribs is made in the form of a ring connecting all the ribs. 4. The detonator latch of the intermediate small-sized according to claim 1, characterized in that the emphasis on the ribs is made in the form of a protrusion. 5. The detonator clamp of the intermediate small-sized according to claim 1, characterized in that a groove is located in the end of the case and on the outer surface of the case there is a clamp for the waveguide of the non-electric initiation system or wires of the detonator in an amount of at least one. 6. The detonator latch of the intermediate small-sized according to claim 1, characterized in that at least one slot for the waveguide of the non-electric initiation system or the wires of the detonator is located in the wall and inside the housing. 7. The detonator latch of the intermediate small-sized according to claim 1, characterized in that the housing is made in the form of a hollow cone and ribs with stops in the amount of at least three are located inside the housing. 8. The detonator latch of the intermediate small-sized according to claim 1, characterized in that the housing is made in the form of a hollow truncated cone, in the bottom of which there are openings and stops in an amount of at least three.

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