RU2678280C1 - Priming cartridges and intermediate detonators in explosive wells fixing and installation container - Google Patents

Abstract

FIELD: blasting operations.SUBSTANCE: invention relates to the field of blasting works in the mining industry, and is intended for the intermediate detonator seating and fixing, for example, consisting of the PDP-300 detonator pellet or the emulsion explosive cartridge (EEC) in the ascending wells with manual and mechanized loading in the mines and ore mines underground workings. Container is made of polyethylene, contains a body and a cover. Made in the form of a hollow cylinder the container body has flat protrusions located inside along the body perpendicular to the axis, in the number of not less than three and elastic tabs, located outside at an angle to the container body at the flat protrusions location point inside the body, in the number of not less than three. Made in the form of a hollow cylinder container cover has a dome-shaped bottom.EFFECT: invention is aimed at increase in the blasting works safety, quality, efficiency and cost-effectiveness, to expand its scope, to simplify its design, to reduce the material consumption, to improve manufacturability and reduce its manufacturing cost.3 cl, 2 dwg

Description

The invention relates to the field of blasting in the mining industry and is intended for sending and fixing an intermediate detonator, for example consisting of a PDP-300 checker-detonator or EVV cartridge in ascending wells with manual and mechanized loading in underground mines and mines.

A device for holding cartridges of explosive when charging uprising wells is known (Vovk A.A. Explosive manual K.: State Publishing House of Technical Literature of the Ukrainian SSR, 1963, p. 388). Structurally, this device consists of a circle of three-layer plywood with a diameter slightly larger than the diameter of the explosive cartridge, metal paws are attached to the plywood circle with a hinge mechanism, metal paws are fastened together by a strip of rubber attached to the plywood circle. The disadvantage of this device is that it has a material-intensive complex mechanical design, requires significant additional material, labor and labor costs for its manufacture. The design of this device does not provide for fixing the end of the downhole or charging hose in its center, as a result of which, when charging a well, the end of the downhole or charging hose is shifted to the edge of the device and the force exerted at this point during retaking leads to skewing and jamming of it in the well.

Known Charging device for wells (RF Patent for utility model No. 65204) containing a charge placed in the housing for an explosion in the well. The housing is 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 planks-shoulders, the lower ends of which are interconnected by means of an anchor lock, which in turn is connected to the housing explosive charge (BB). 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 does not allow fixing and reliably holding explosives in an uphole in rocks.

A device for fixing the charge in the well (RF Patent for utility model No. 76706), comprising a housing made in the form of an anchor device. The housing is made with a through window and is equipped with an adapter and a fixing mechanism installed in said through window. The locking mechanism consists of two spring-loaded petals. The inner ends of the petals are connected by a common axis installed in the walls of the housing. The upper part of the housing is made with a socket in the form of an opening for installing an adapter with an explosive charge. The disadvantage of this design is the presence of an additional device in the form of an adapter and the placement of an explosive charge in it. Installing the adapter on the device case requires additional work time. The presence of two retaining non-bending spring-loaded lobes does not allow the rocks to fix and reliably hold the charge in the rocks exactly in the center of the axis of the ascending well.

The prototype of the claimed invention is a container for fixing and installing cartridges-fighters and intermediate detonators in blast holes (RF Patent for utility model No. 165856), containing a cylindrical body made with a lid and a shank, an explosive charge placed in the housing. The housing is made in the form of a dimensional insert with grooves and is equipped with a stop for the shank. The shank is made in the form of a guide cone with a cylindrical transition to the housing. The cover is made in the form of a centering cartridge made of truncated hollow cones of different diameters with grooves of cylindrical shape rigidly fixed on the base with petals and located on the same axis. The inner diameter of the smaller truncated cone is larger than the outer diameter of the charging hose, while the dimensional insert, the cylindrical transition of the shank and the large truncated hollow cone of the centering cartridge have an inner diameter larger than the outer diameter of the explosive cartridge, all of these container elements being detachable. The disadvantages of this technical solution include the following:

- if, if necessary, during assembly, a hole is made in the liner body and the waveguide is pulled through it, the waveguide is located between the container body and the borehole wall, as a result of which the waveguide may be damaged on sharp edges of the bumps in the borehole wall when the gun is retreated;

- the container has a complex structure and consists of three components: a body in the form of a dimensional insert with an emphasis, a shank in the form of a guide cone with a cylindrical transition, a centering cartridge, consisting of a base on which are fixed petals and truncated hollow cones of different diameters with internal grooves of a cylindrical shape. A truncated hollow cone of a larger diameter centering cartridge is configured to be inserted into the housing due to its taper, a smaller truncated cone is made with an inner diameter larger than the outer diameter of the charging hose. All of the above makes its production non-technological;

- the condition must be met in which the inner diameter of the smaller truncated cone must be larger than the outer diameter of the charging hose, it follows that the use of charging equipment with a charging hose whose outer diameter is larger than the inner diameter of the smaller truncated cone is impossible;

- the centering cartridge has a solid bottom of the base, as a result of which there is no direct contact of the intermediate detonator with the explosive charge, and a truncated cone of smaller diameter makes an annular channel in the front of the detonation shock wave, where the detonation shock wave is very weak or absent, all of the above is insignificant, but reduces the initiating pulse of a detonation shock wave.

The technical result of the invention is the manufacturability and ease of installation, reliable retention of an intermediate detonator, for example, consisting of a PDP-300 checker-detonator or EVV cartridge anywhere in an ascending well during manual and mechanized loading in dry and flooded conditions, increasing the reliability and efficiency of initiating low-sensitivity industrial explosives explosives, improving safety when handling an intermediate detonator, improving the quality, efficiency and economy of blasting , Its expansion applications, simplification of the container design, reduction of the material, reduction and improving workability of manufacture.

The technical result is achieved by the fact that the container for fixing and installing militant cartridges and intermediate detonators in blast holes has a simple structure and consists of a body and a cover. The container body is made in the form of a hollow cylinder. Inside, along the container body, perpendicular to its axis, there are flat protrusions in an amount of at least three, outside of the housing at the location of the flat protrusions at an angle to the housing are elastic petals in an amount of at least three. Flat protrusions divide the container body along its length into larger and smaller parts and serve as stops for an intermediate detonator, a downhole or a charging hose. Most of the container body is designed to accommodate an intermediate detonator, a smaller part is designed to accommodate a downhole or charging hose. The container body from the side where the intermediate detonator is located is closed by a lid made in the form of a hollow cylinder with a domed bottom.

The essence of the proposed solutions in the description of the proposed Container for fixing and installing militant cartridges and intermediate detonators in blast holes is illustrated in the drawings of FIG. 1 and FIG. 2, where 1 is the lid, 2 is the container body, 3 is the elastic tab, 4 is the waveguide, 5 is the intermediate detonator, 6 is the detonator capsule, 7 are the flat protrusions, 8 is the charging hose.

The installation of an intermediate detonator, sending it to the well using a container for fixing and installing militant cartridges and intermediate detonators in blast holes is carried out as follows. A detonator capsule of a non-electric initiation system or an electric detonator - 4 is inserted into the cylindrical container body - 2 from the side of its smaller part, passes through the space between the flat protrusions - 7 and is removed from the container body from the side of the larger part. Then the capsule-detonator of the initiating means is introduced into the intermediate detonator - 5, then the intermediate detonator with the initiating means is placed in the container body - 2 and closed by the lid - 1. The waveguide of the non-electric initiation system or the wires of the electric detonator - 4 are located inside the container body between the stop ribs - 7 The sending of an intermediate detonator to the well is carried out using a downhole or charging hose - 8, which is introduced into a smaller part of the container body, then charging well explosive.

The design of the invention provides the following advantages that increase the safety and efficiency of blasting:

- protects the intermediate detonator and detonator capsule from getting wet, mechanical damage to the bottom and the wall of the well, and from the mechanical impact of the downhole or charging hose during re-entry;

- protects the waveguide of the non-electric initiation system or electric detonator wire from mechanical damage to the wall and the bottom of the well during mechanized and manual loading;

- allows for direct contact of the end face of the intermediate detonator with the explosive of the borehole charge;

- allows direct and reverse initiation of a borehole charge;

- protects the shell of the cartridge from rupture and leakage of emulsion explosives when using it as an intermediate detonator;

- allows you to use different charging equipment with different diameters of the charging hose, which expands the scope of its application;

- in the manufacture of the container, its geometric dimensions are selected taking into account the geometric dimensions of the used intermediate detonator and the diameter of the well, which ensures reliable fixation of the intermediate detonator in the well.

Claims (3)

1. A container for fixing and installing militant cartridges and intermediate detonators in blast holes, characterized in that the body is made in the form of a hollow cylinder, has flat protrusions located inside along the body perpendicular to the axis, in an amount of at least three and elastic petals located with the outer side at an angle to the container body at the location of the flat protrusions inside the body, in an amount of at least three and the lid is made in the form of a hollow cylinder with a domed bottom. 2. The container of claim. 1, characterized in that the petals located on the outside are perpendicular to the container body. 3. The container according to claim 1, characterized in that the housing and the cover are made of polyethylene.

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