RU204664U1 - KNOCK TRANSMISSION DEVICE - Google Patents

Abstract

The utility model relates to the means of initiating and transmitting an explosive impulse in explosive automation systems located in limited volumes, and can be used for the installation of explosive networks in the production of blasting operations. The detonation transmission device contains an initiation source, a detonation wiring matrix with one input and several outputs. The matrix is a metal body with side openings for the input and output of detonation wiring. An inert insert is installed in the housing. Detonation wiring includes detonation rods placed in the tab, coupled with detonating cords, one of which is input between the source of initiation and the inlet of detonation wiring, and the other outputs are connected, respectively, to the outputs of the detonation wiring. Each end of the detonating cords is secured by means of a retention element in the corresponding opening of the housing, ensuring tight contact with the end of the detonating rod. The rods and cords have an identical explosive composition. Output detonating cords are made of the same length or with a difference in length. EFFECT: provision of reliable formation of simultaneous or with a certain time difference of detonation signals from the source of initiation to end sections located on extended surfaces with complex geometry moving relative to each other in a limited volume. 1 wp f-ly, 2 dwg.

Description

The utility model relates to the means of initiation and transmission of an explosive impulse in explosive automation systems located in limited volumes, and can be used for the installation of explosive networks during blasting operations.

The main requirement when working with explosive devices, to which the detonation transmission device belongs, is to provide simultaneous or with a certain time difference detonation signals from the source of initiation to the end sections.

A device for generating a blast wave is known [RU patent No. 2135935, IPC F42B 3/10, publ. 08/27/1999], which includes an initiation source, a matrix with detonation wiring made in it with a common input and several outputs. In this device, the detonation wiring is a sublimated explosive array with branched ends, located on the main charge or on an additional layer of flexible explosive that acts as an intermediate detonator. This device is taken as a prototype.

In the known device, the wiring is placed on an intermediate detonator, while the detonation, propagating along the wiring, through the end sections activates an intermediate detonator, in which detonation waves collide with each other in the zones between the projections of the end sections, which makes it possible to enhance the initiating pulse transmitted to the main explosive charge substances (BB). In the prototype, to ensure synchronization of the detonation front, it is necessary to comply with the condition of equality of the times of transfer of the detonation pulse to the surface of the charge, in order to minimize the difference in timing of the arrival of detonation pulses to the outputs of the detonation wiring - the end sections located at an angle to the surface of the matrix.

The disadvantage of the prototype is that the wiring is laid in the channels of the matrix and it can be difficult to match the uniformity of the distribution of the outputs of the detonation wiring and the equal length of its channels, but even if this is achieved, the synchronous detonation front in the explosive charge being detonated may not be formed. At the same time, the prototype uses a sublimated explosive applied in the form of a lattice on the main charge or on an additional layer of a flexible explosive, and during the operation of explosive automation systems, the effects of temperature changes, mechanical effects on the layer are not excluded, which can lead to rupture of the lattice, and accordingly , lead to a decrease in the reliability of the device. Moreover, the explosive of this device is deposited on the surface of the main explosive, therefore this technical solution cannot be applied in structures where the detonation transmission device must be placed on surfaces with complex geometry moving relative to each other. In addition, in the conditions of the placement of explosive automation, where high requirements are imposed on the minimum impact on the surrounding devices in a limited volume, the presence of the main explosive on which the matrix is located according to the prototype is not desirable.

The task and the technical result to be achieved by the claimed technical solution is to ensure the reliable formation of simultaneous or with a certain time difference of detonation signals from the source of initiation to the end sections located on extended surfaces with complex geometry moving relative to each other in a limited volume ...

The technical result is achieved by the fact that a detonation transmission device comprising an initiation source, a matrix with a detonation wiring with one input and several outputs, according to the utility model, the matrix is a metal body having side holes for the inlet and outputs of the detonation wiring, an inert insert is installed in the body, moreover, the detonation wiring includes detonation rods placed in the tab, coupled with detonating cords, one of which is introduced between the source of initiation and the input of the detonation wiring, and the other outputs are connected, respectively, to the outputs of the detonation wiring, with each end of the detonating cords fixed by means of a retention element in the corresponding opening of the housing with ensuring tight contact with the end of the detonating rod, the rods and cords having an identical explosive composition, and the output detonating cords are made of the same length or with a certain difference in length.

The design of the matrix in the form of a metal body, which has side holes for the input and output of detonation wiring, while an inert insert is installed in the body, makes it possible to form a simple and reliable assembly of elements of the detonation transmission device, provided that the effect of explosion products on the environment is reduced, which makes it possible to use the device in a limited dimensions and volume.

Execution of detonation wiring from detonation wires placed in the tab, coupled with detonating cords, one of which is introduced between the source of initiation and the input of the detonation wiring, and the other outputs are connected, respectively, to the outputs of the detonation wiring, with each end of the detonating cords fixed by means of a retention element in the corresponding opening of the housing, ensuring tight contact with the end of the detonating rod, makes it possible to place the initiation source and the inert matrix on remote surfaces of complex geometry that are movable relative to each other, reducing the likelihood of rupture of detonation paths during installation and operation, which increases the reliability of the detonation signal transmission over remote distances. In addition, it reduces, in comparison with the prototype, the weight and size characteristics, which makes it possible to use it in explosive automation systems placed in a limited volume.

Detonation wiring, including detonating cords and detonation rods of the insert containing an identical explosive composition, guarantees the reliability of the transmission of the detonation signal from the initiation source to the end sections, increases the reliability of the detonation transmission device, including under the action of external factors arising during operation.

The possibility of performing output detonating cords of the same length or with a certain difference in length provides the formation of simultaneous or with a certain time difference detonation signals from the source of initiation to the end sections.

Thus, the totality of all the above features creates the conditions for creating the design of a device that ensures reliable transmission from the source of initiation to the end sections of simultaneous or with a certain time difference in detonation signals in explosive automation systems placed in a limited volume on movable extended surfaces with complex geometry in a limited volume.

The presence in the claimed utility model of the features that distinguish it from the prototype, allows us to consider it as corresponding to the "novelty" condition.

The utility model is illustrated by drawings:

FIG. 1 shows a general view of the detonation transmission device;

FIG. 2 shows an embodiment of a detonation transmission device with four detonation transmission end sections;

The device is made as follows.

The detonation transmission device (Fig. 1) consists of an initiation source 1 and a matrix with detonation wiring. The matrix is a metal body 2 with an inert insert 3 installed in it. The body 2 has side holes: for inlet 4 and outlets 5 of detonation wiring, respectively. Detonation wiring includes detonation rods 6 placed in insert 3, coupled with detonating cords, one of which input 7 is introduced between the initiation source 1 and input 4 of detonation wiring, and the other output 8 are connected, respectively, to the outputs 5 of the detonation wiring. Detonating cords 7.8 each end is secured by means of a holding element in the corresponding hole 4.5 of the housing with ensuring tight contact with the end of the detonating rod 6. The holding element is made in the form of a metal sleeve 9, connected to the housing 2 by thread, and placed in the longitudinal hole of the specified bushings 9 of the inert tip 10, linked by means of glue and crimping with collet tabs with the end of the detonating cord 7,8. Rods 6 and cords 7.8 have an identical explosive composition. Cords 8 can be made of the same length, as well as for the formation with a certain time difference of detonation signals from the source of initiation to the end sections - with a certain difference in length. The detonation transmission device can be made with four (Fig. 2) detonation transmission end sections, to each of which a similar device can also be connected.

The assembly of the claimed device is carried out as follows

An inert insert 3 with rods 6 placed in it is installed in a steel case 2 and fastened with screws 11. Then, cord wiring is installed by fixing the ends of the cords 7.8 with bushings 9 in the corresponding holes 4.5 of the case 2 until the ends of the cords 7.8 are in contact with the ends rods 6. To check the reliability of the connection in the detonation transmission unit, visual (or X-ray) control of the contact of detonating cords 7.8 with rods 6. The device is assembled and ready for use.

The device works as follows.

When the input section is initiated, the detonation signal passes through the wiring of the cord 7, then goes to the end of the receiving rod 6, which is in the inert insert 3, then it is distributed over the detonation rods 6, and is transmitted along the wiring by the cord 8 to the end sections A at the same time with equal length of the cords 8 or with a certain time difference in the case of different lengths of cords 8. Thus, a reliable and safe transmission of a detonation pulse is achieved in explosive automation systems located on remote surfaces of complex geometry that are movable relative to each other, where it is necessary to transmit a detonation signal to one or with a certain difference by time.

A prototype was manufactured at the enterprise, which confirmed the operability of the proposed device. The specified device can be used in the development of military equipment, explosive devices, for use in economic activities (engineering charges, mining, mechanical engineering, etc.), research activities, where synchronized or with a certain time difference transmission of an initiating pulse to several end sections.

So, the presented information testifies to the fulfillment of the following set of conditions when using the claimed utility model:

- a device that embodies the claimed utility model during its implementation belongs to the field of blasting operations;

- the means embodying the claimed utility model in its implementation is designed to ensure reliable generation of simultaneous or with a certain time difference detonation signals from the source of initiation to the end portions located on extended surfaces with complex geometry moving relative to each other in a limited volume;

- for the claimed device in the form in which it is described in the formula of the utility model, the possibility of its implementation has been confirmed using the means and methods described in the application and known before the priority date.

Consequently, the claimed utility model meets the "industrial applicability" condition.

Claims (2)

1. Detonation transfer device, including an initiation source, a matrix with detonation wiring with one input and several outputs, characterized in that the matrix is a metal body with side holes for the input and output of detonation wiring, an inert insert is installed in the body, and the detonation wiring includes detonation rods placed in the tab, coupled with detonating cords, one of which is introduced between the source of initiation and the inlet of the detonation wiring, and the other outputs are connected, respectively, to the outputs of the detonation wiring, with each end of the detonating cords fixed by means of a retention element in the corresponding opening of the housing with ensuring tight contact with the end of the detonating rod, and the rods and cords have an identical explosive composition. 2. Detonation transmission device according to claim 1, characterized in that the output detonating cords are made of the same length or with a difference in length.

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