RU2124689C1 - Initiating means - Google Patents

Abstract

FIELD: production of initiating means of high-explosive charges, applicable in production of detonators. SUBSTANCE: initiating means uses a primer detonator, electric primer, winding on a ferrite ring located in an insulating bush with a through hole to pass the primary circuit. The hole is made parallel with the primer- detonator sleeve and with a shift exceeding the sleeve radius. The insulating bush has a boss whose height exceeds the diameter of the primary circuit wire. Variants of initiating means differ by employment of a clamping sleeve on wires, their moulding, as well as by marking of different kinds. EFFECT: reduced labour content of manufacture, improved electric characteristics of detonator and enhanced adaptability to manufacture. 5 cl, 3 dwg

Description

 The invention relates to means for initiating charges of blasting explosives and can be used in the manufacture of detonators.

 Currently, one of the solutions to reduce the risk of an unauthorized explosion is the use of initiation means with excitation by high-frequency currents. At the same time, ferromagnetic products in the form of rods or rings are used to separate the heating circuits of the bridge with the igniter composition (electric igniter) and the blast signal circuit, which are placed both inside the detonator caps (CD) sleeve and outside [1], [2]. Common to these detonators is the contradiction between manufacturability and security against unauthorized switching on. The disadvantage of the first is low-tech, and the second lowered security against unauthorized inclusion.

 As a prototype taken means of initiation, in which a ferrite ring is placed in an insulating sleeve with a hole for the primary wire [3].

 The advantage of this means of initiation is the small length of the conductors of the secondary circuit, their protection against unauthorized connection, the possibility of using an oversized ferrite ring.

 This initiation tool is implemented in a low-tech design that complicates the mold and, as a result, limits further improvement of electrical parameters [4].

 The aim of the invention is to increase the manufacturability of the means of initiation.

 This goal is achieved by the fact that in the means of initiation containing a detonator capsule (CD), an electric igniter, a winding on a ferrite ring placed in an insulating sleeve with a through hole for the primary circuit wire, a coaxial hole in the ferrite ring, the insulating sleeve is made with an opening parallel to the axis of the sleeve KD with an offset greater than the radius of the sleeve, and on the sleeve on the side of the opposite sleeve there is a protrusion with a height exceeding the diameter of the wire of the primary circuit.

 The conductors of the secondary circuit are passed through the holes in the locking insert with an intercenter distance equal to the intercenter distance of the contact areas of the electric igniter.

 On the conductors of the secondary circuit there is a section with a zigzag molding in the direction perpendicular to the plane of the conductors.

 The sleeve is made with a flat petal for marking products.

 The protrusion on the insulating sleeve is made with a groove in which a tag made of elastic polymer is fixed.

 In FIG. 1 shows a section through a means of initiation.

In FIG. 2 shows a section through an insulating sleeve rotated 90 ^° .

 In FIG. 3 is a plan view of an insulating sleeve.

 The initiating means of FIG. 1 consists of a detonator capsule 1, an electric igniter 2, an insulating sleeve 3 with a ferrite ring 4 and a hole 5. Through the ring 4, conductors of the primary 6 and secondary 7 circuits are passed. On the opposite side of the detonator capsule 1 of the sleeve 3 there is a protrusion 8.

 The insulating sleeve 3 shown in FIG. 2, consists of two ferrite rings 4, a fixing insert 9, a section of the zigovka 10 on the conductors 7.

 A groove 11 is made on the protrusion 8, in which the tag 12 is fixed.

 In FIG. 3 shows a variant of marking on a flat tab 13.

 As shown in FIG. 1, the axis of the hole 5 is parallel to the axis of the sleeve of the detonator capsule 1. This allows the insulating sleeve 3 to be made in the form of truncated cones with parallel axes. In this case, the tool for casting the insulating sleeve 3 is performed with two parallel planes of the connector - one for the electric igniter 2 and the other for the protrusion 8. In this case, the injection tool becomes simpler and more technologically advanced than the product ED-24, with a hole perpendicular to the axis of the sleeve.

 The offset of the center of the hole 5 outside the sleeve 1 is designed for unhindered passage of the primary circuit 6. At the same time, the secondary circuit conductor 7 acquires symmetry with respect to the axis of the core 1, which simplifies its installation.

 The protrusion 8, having a height exceeding the diameter of the wire 6, acts as a shock absorber protecting the core 4 and the detonator capsule 1 when sending the initiating means together with the charge of the blasting explosive (BVV) into the pit.

 In this case, the wire of the primary circuit 6 is not clamped and can, if necessary, move through the hole 5.

 The use of a ferrite ring 2000НМ1 К12х5х5.5 allows one to obtain an initiating means, which, together with the charge of the explosive charge, passes with a gap of 28 mm in the pit.

 The implementation of the holes 5 parallel to the axis of the detonator capsule 1 allows you to place two or more ferrite rings 4 in the insulating sleeve 3 (see Fig. 2). This improves the electrical parameters of the means of initiation.

 Passing the conductors of the secondary circuit 7 through the holes of the insulating insert 9, in which the center-to-center distance coincides with the center-to-center distance of the contact pads of the electric igniter 2 reduces the complexity of welding.

 The selection on the conductors 7 of section 10, on which the conductors are zigzag formed in the direction perpendicular to the plane of the conductors, reduces the load on the ferrite ring 4 and the welding points to the electric igniter 2 when crimping the sleeve of the igniter 1 and the insulating sleeve 3 by compression.

 Marking of the means of initiation can be carried out both by drawing signs on the insulating sleeve 3, pasting the cylindrical surface of the sleeve 3 with tape with the corresponding information, and by using a tag 12 or a petal 13. The tag 12 is made of elastic polymer and composting numbers of the versions of the initiating means are applied on it. In the tag 12, a hole can be made for passing the wire 6. In this case, the tag 12 can be removed from the protrusion 8 and placed at the beginning of the pit when it is equipped with explosive charge. At the end of the equipment, it is possible to verify the correct installation of the means of initiation. The use of composting improves the readability of the performance number in low light conditions, which is the case in mines and tunnels.

 A flat lobe 13 is made simultaneously with the casting of the insulating sleeve 3 and the same information is applied to it.

 The means of initiating this design made it possible to simplify the tool for casting the insulating sleeve, solve marking issues, reduce the complexity of manufacturing, and improve electrical characteristics. This allows us to talk about achieving the goal of the invention - improving manufacturability.

Sources of information
1. A.S. N 1.042.424 F 42 B 3/18 dated 4.07.80 g.

 2. GB N 2.109512 F 42 C 19/12 dated 2.06.83.

 3. Prototype: a.s. SU 1745022 A1, 03/10/96, F 42 C 19/12.

 4. Product ED-24 DISHV 773.954.003 TU.

Claims (5)

 1. The means of initiation comprising a detonator capsule, an electric igniter, a winding on a ferrite ring placed in an insulating sleeve with a through hole for the primary circuit wire, a coaxial hole in the ferrite ring, characterized in that the insulating sleeve is made with an opening parallel to the axis of the capsule sleeve a detonator with an offset greater than the radius of the sleeve, and on the side of the sleeve opposite the detonator capsule, a protrusion is made with a height exceeding the diameter of the primary circuit wire.  2. The tool according to claim 1, characterized in that the conductors of the secondary circuit are passed through holes in the locking insert with an intercenter distance equal to the intercenter distance of the contact areas of the electric igniter.  3. The tool according to claims 1 and 2, characterized in that on the conductors of the secondary circuit there is a section with a zigzag molding in the direction perpendicular to the plane of the conductors.  4. The tool according to paragraphs. 1 to 3, characterized in that the sleeve is made with flat petals for marking the product.  5. The tool according to paragraphs. 1 to 3, characterized in that the protrusion on the insulating sleeve is made with a groove in which a tag made of elastic polymer is fixed.

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