RU2450236C1 - Connector of explosive lines - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: connector of explosive lines comprises a base with a retaining element, seats for a source of an initiating pulse and input-output of connected sections of explosive lines, which are joined with the source of the initiating pulse in a detonating manner. The base is arranged as cylindrical with a central groove, where a retaining element is installed, connected to the base by a fastening element as capable of disengagement. Seats for input-output of connected sections are arranged in the form of slots in a lateral side of the base. Between the retaining element and the base on the groove bottom there is a distributor installed coaxially with detonating channels, providing for detonating connection of the initiation source and connected sections.

EFFECT: higher reliability of connection of small-sized explosive lines, due to provision of reliable connection of flexible elements in detonation distributing networks.

4 cl, 4 dwg

Description

The invention relates to the field of blasting, to the connections of flexible elements, and in particular to devices for connecting blasting lines, in particular cords (L) in the detonation wiring networks when installing an explosive network.

The task in this field of technology is to ensure reliable connection of flexible elements in detonation wiring networks with a relatively small connector size, this is especially true if it is necessary to branch from one common point in a large number of small detonating cords (MDS) operating at maximum diameters (close critical) explosive (BB).

The blast line connector is known according to the patent of the Russian Federation 2169721 (the description was published on June 27, 01), including a base with a seat for the source of the initiating pulse (detonator capsule), a holding element (a curved clamping element), which interacts with the end of the base element, forming an arcuate a groove for placing and holding blast line elements (one or more) for signal transmission from the detonator capsule.

The known connector does not exclude the loss of the connected elements of the blasting lines from the clamp under dynamic loads and requires knotting at its free ends.

Another connector is known (RF patent 2209809, description published on 08/10/03), selected as a prototype. This connector for blasting lines includes a base, a retaining element coupled to the base, channels for input-output of the connected sections of the blasting lines, and a seat for the source of the initiating pulse detonation associated with the connected nodes. Channels for input-output are made in the form of a gap between the base and the retaining element, which is made in the form of two segments, rigidly connected between themselves and the base, at the free ends of which fasteners are made in the form of locks. The seat for the source of the initiating pulse (detonator capsule) is made in the form of a channel in the base, in the walls of which slots are made, which provide direct contact of the detonator capsule with sections of explosive lines held in the gap, the number of which is limited (up to 6).

The disadvantage of the prototype is the large size and limited functionality due to the low reliability of the connection of small explosive lines operating at the maximum diameters of the explosive used.

The technical result of the claimed invention is to increase the reliability of the connection of small explosive lines.

The specified technical result is achieved due to the fact that in the connector of the blasting lines, including the base with a retaining element, seats for input-output of the connected sections of the blasting lines and for the source of the initiating pulse detonation associated with the connected sections, the base is made of a cylindrical shape with a Central recess in which a holding element is installed, connected to the base by a fastening element with the possibility of separation, seats for input-output of the connected sections Execute the side wall of the base in the form of recesses and between the holding member and base at the bottom of the recess is mounted coaxially with the distributor channels detonation, detonation performing communication between a source of initiation and connectable portions.

As a seat for the source of the initiating pulse can serve one of the grooves of the base, connected to one of the channels of the distributor.

When making a seat for the source of the initiating pulse along the axis, additionally coaxial to the distributor, an initiating device can be installed that detonates with the source of the initiating pulse and includes a central detonation channel that goes into the disk in contact with the detonation channels of the distributor.

The connector can be multi-tier, with each tier consisting of a base with a retaining element and seats for input-output of the connected sections, the distributor is made with branched detonation channels, the end sections of which are suitable for the input-output channels of the connected sections of all tiers, and the mounting the element is made in the form of a tightening bolt passing along the axis along all tiers.

The implementation of the base of a cylindrical shape with a central recess in which the retaining element is installed allows optimizing the layout of the connector for small blast lines, which makes it possible to reduce its dimensions with reliable connections, while the holding element crushes the assembly and reliably fixes the connected parts of the blast lines.

The implementation of the connector is detachable with the connection of the base and the retaining element to each other with a fastening element which makes the connector universal, as it is possible with a large number of blasting lines to be connected to distribute them in radial directions or in height, performing a multi-tiered design, while ensuring reliable connections.

The implementation of the seats for the input-output of the connected sections in the side wall of the base in the form of grooves provides the convenience of installing small blast lines in them

The coaxial installation of the distributor with detonation channels that provide detonation coupling between the initiation source and the connected sections, between the retaining element and the base at the bottom of the notch allows for reliable transmission of the detonation pulse from the initiation source. So, during assembly, an explosive is laid in the channels of the distributor with the necessary excess, which is displaced after being crushed by the retaining element, creating reliable contact between the connected parts of the blast lines and the distributor, as well as between the distributor and the source of the initiating pulse.

The use of one of the base slots, which is connected to one of the channels of the distributor, as a seat for the source of the initiating pulse allows, with a small number of blasting lines to be connected, to make a connector with minimum dimensions.

The installation of an initiating device that detonates with the source of the initiating pulse and includes a central detonation channel that goes into the disk in contact with the detonation channels of the distributor, allows you to reliably connect a large number of explosive lines.

The design of the connector is multi-tiered, a distributor with branched detonation channels, the end sections of which are suitable for channels for input-output of the connected sections of all tiers, and the fastening element in the form of a tightening bolt passing along the axis along all tiers allows you to optimize the design with a large number of blast lines connected. When branching the distributor channels, it is possible to perform circular branches and reduce the number of initial sections extending from the center.

Figure 1, 2 shows a General view of the inventive device with a single-tier layout; figure 3 - when tiered, figure 4 - when placing the source of the initiating pulse in the groove of the base, where

1 - base; 2 - distributor; 3 - initiating device; 4 - source of the initiating pulse; 5 - a tightening bolt; 6 - holding element; 7 - the head of the connected element (MDS); 8 - the central channel of the initiating device; 9 - disk initiating device; 10 - channels of the distributor.

An example of a specific implementation of the claimed device can serve as a connector for MDS, the initial sections of which are made with the extension (head MDS). The connector includes a base in the form of a disk with an annular collar on the periphery, in which drilling (grooves) are made to accommodate the heads of the MDS. The disk in the central part is made with a recess for accommodating the retaining element in the form of an elastoplastic gasket. At the bottom of the recess between the gasket and the base, a distributor is installed made of a polymer material with channels filled with explosives. The channels can be made radial (Figs. 1, 4), and with a large number of connected elements and with a multi-tiered layout, they are branched, with jumpers, for example, an annular shape (Fig. 3). When an initiating pulse source, for example, an electric detonator, is placed along the axis of the connector, an initiating device made in the form of a central detonation channel turning into a disk in contact with the detonation channels of the distributor and made of the same explosive as the channels is used as a connecting link between it and the distributor . As the source of the initiating pulse, a detonating cord can also be used, the head of which is placed in the plane of the distributor as shown in Fig. 4, while the initiating device is not practical to use. With a large number of connected elements, they can be located both in the radial directions of the base and in height, performing a multi-tiered design (Fig. 3). The assembly is pulled together by one or several bolts, while the gasket squeezes the assembly, displacing the BB from the channels of the distributor, laid with the necessary excess, and fixes the heads of the MDS.

The operation of the claimed device is as follows. When the source of the initiating pulse is used - an electric detonator (not shown in FIGS. 1, 2) - the initiating pulse is transmitted to the initiating device 3, which is the connecting link between it and the distributor 2. The initiating pulse is transmitted via channel 8 of the initiating device 3 to disk 9, and Further, through the detonation channels 10 of the distributor 2, it is transmitted to the heads of the MDS 7, which transmit it further to the initiation points. When you use the source of the initiating pulse, which serves as one of the heads MDS 4 (figure 4), the pulse will pass through the distributor 2, which in this case also performs the function of the initiating device. When multi-tiered layout (figure 3), the pulse goes through the channel 8 of the initiating device, then through the disk 9 and is transmitted to the branched detonation channels 10 of the distributor 2, the end sections of which transmit the pulse to the heads 7 of the connected MDS.

Thus, thanks to the proposed connector, it is possible to produce a structure whose dimensions are commensurate with the dimensions of the connected MDS. Moreover, the design is detachable and provides quick assembly when connecting a large number of MDS, which can be increased by placing them both in height and in radius.

Claims (4)

1. The connector of the blast lines, including a base with a holding element, seats for the source of the initiating pulse and input-output of the connected sections of the blast lines detonation associated with the source of the initiating pulse, characterized in that the base is made of a cylindrical shape with a central recess in which the holding an element connected to the base by a fastening element with the possibility of separation, the seats for the input-output of the connected sections are made in the side wall in the form of grooves, and between the retaining element and the base at the bottom of the notch, a distributor is installed coaxially with detonation channels that carry out the detonation connection of the initiation source and the connected sections. 2. The connector according to claim 1, characterized in that as a seat for the source of the initiating pulse is one of the grooves of the base, connected to one of the channels of the distributor. 3. The connector according to claim 1, characterized in that on the axis between the distributor and the source of the initiating pulse, an initiating device is installed that includes a central detonation channel that goes into the disk in contact with the detonation channels of the distributor. 4. The connector according to claim 1, characterized in that it is multi-tiered, each tier consisting of a base with a retaining element and seats for input-output of the connected sections, and the source of the initiating pulse is common to all tiers, while the distributor is made with branched detonation channels, the end sections of which are suitable for channels for input-output of connected sections of all tiers, and the fastener is made in the form of a tightening bolt passing through all tiers.

Images