RU2700694C1 - Method and unit for disconnection of disc-type explosive magnetic generator from spiral explosive magnetic generator - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to means of converting energy of explosive substance into electromagnetic energy in device for cumulation of powerful electric current pulses for disconnection of disc explosion-magnetic generator from spiral explosive-magnetic generator. It is envisioned that disc magnetic-explosive generator can be disconnected from spiral magnetic-magnetic generator, at that, disconnection is performed after charging of disc magnetic explosion generator by initial current by means of closure of discharge circuit of disc-type explosive magnetic generator at the moment of time coinciding with moment of greatest value of charging current of disc-type explosive magnetic generator from spiral explosive-magnetic generator at initiation of main charge of explosive substance of disconnection unit. Initiation of main charge of explosive substance is carried out by transmission of detonation wave from charge of explosive substance of spiral explosive magnetic generator through detonation channels, wherein the duration of the discharge circuit of the disc-type explosive magnetic generator is selected by varying the length of the detonation channels. Initiating device is explosive charge of spiral explosive magnetic generator, wherein connection of charge of explosive substance of spiral explosive-magnetic generator and main charge of explosive substance is made with axisymmetric axial detonation channels and radial plate with respect to them from explosive.

EFFECT: reduced costs for experiment and increased reliability of the system consisting of a spiral explosive-magnetic generator and a disc-type explosion-magnetic generator.

2 cl, 1 dwg

Description

The group of inventions relates to the physics of high energy densities, in particular to devices and methods for converting explosive energy (explosive) into electromagnetic energy. The method and the shutdown unit can be used in a device for the accumulation of powerful pulses of electric current to disconnect a disk explosive magnetic generator from a spiral explosive magnetic generator.

The principle of operation of an explosive magnetic generator (VMG) is based on the conversion of the chemical energy of explosives (EX) into magnetic field energy by rapidly compressing the products of an explosion of an electrical circuit with current. The initial magnetic flux in the circuit of a disk explosive magnetic generator (DVMG) is created by a spiral explosive magnetic generator (SVMG). When the magnetic flux reaches a predetermined value in the DVMG, it is necessary to disconnect the SVMG from the DVMG in order to remove the parasitic inductance of the SVMG from the current circuit of the DVMG. For this purpose, the node and the shutdown method are used.

The prior art method and unit for disconnecting a disk explosive magnetic generator from a spiral explosive magnetic generator, presented in the patents (patent RU No. 2547337, A device for studying the effectiveness of high-speed implosion of a liner, authors Glybin AM and others, published on 04/10/2015 and patent RU No. 2548021, Explosive magnetic system for generating a powerful energy pulse, authors Boriskin A.S. et al., Published on 04/10/2015), with RU patent No. 2548021 selected as a prototype. The method consists in the fact that at the maximum current value, the spiral explosive magnetic power source is turned off by closing the disk explosive magnetic generator circuit as follows: a blasting pulse is supplied to the electric detonators (ED) of the explosive switch initiation device (disconnection unit), which is triggered and excites detonation along the ring in the charge explosive of the shutdown unit, then under the action of detonation products of the charge of the explosive of the shutdown unit, the conductors are closed. The shutdown node is a coaxially located main explosive charge, a device for initiating the main explosive charge, the outer and inner electrodes, the insulator between them. When a pulse is applied to the electric detonators of the initiation device, the main explosive charge is undermined, which accelerates the external electrode. The external electrode destroys the insulator, and, touching the internal electrode, closes the electric circuit of the DVMG, thereby disconnecting the DVMG from the SVMG.

The disadvantages of the known method and device are the need to use a high-voltage cable near the explosive to undermine the shutdown node, which requires the presence of special high-voltage equipment at the training ground where experiments are conducted with the VMG. Since the blasting occurs closer to the end of the SVMG operation, in conditions of a large external electromagnetic field, special measures are required to protect the blasting cable. There is a danger of an accident when installing electrical wiring (connecting a blast cable), as The explosive is nearby, and installation usually occurs in adverse environmental conditions. In some cases, the disadvantage is that the closure time of the discharge circuit of the disk explosive magnetic generator is set in preparation for the experiment when setting up special high-voltage equipment, and not at the design stage.

When creating this invention, the problem was solved of creating a method and device for disconnecting an SVMG from a DVMG, allowing to increase the reliability of the system consisting of SVMG and DVMG and reduce the cost of the experiment.

The technical result achieved in solving this problem is to reduce the cost of the experiment and increase the reliability of the system consisting of SVMG and DVMG.

The technical result is achieved by the proposed method of disconnecting a disk explosive magnetic generator from a spiral explosive magnetic generator, according to which disconnection is performed after charging the disk explosive magnetic generator with the initial current by closing the discharge circuit of the disk explosive magnetic generator at a time instant that coincides with the moment of the highest value of the charging current of the disk explosive magnetic generator from the spiral explosive magnetic generator upon initiation of the main explosive charge substance of the disconnection unit. In the proposed method, it is new that the main explosive charge is initiated by transferring the detonation wave from the explosive charge of the spiral explosive magnetic generator through the detonation channels, while the closure time of the discharge circuit of the disk explosive magnetic generator is selected by changing the length of the detonation channels.

The technical result is also achieved by the fact that in the unit for disconnecting a disk explosive magnetic generator from a spiral explosive magnetic generator containing coaxially located the main explosive charge, a device for initiating the main explosive charge, the outer and inner electrodes, the insulator between them, is new, that the initiation device is explosive charge of a spiral explosive magnetic generator, and the connection of the explosive charge of a spiral explosive magnet Nogo generator and the main explosive charge formed axisymmetric axial detonation channels and radially disposed with respect to them a plate of the explosive.

The new shutdown method reduces the use of high-voltage blasting cables, initiating means (electric detonators) in experiments, as a result of which electromagnetic interference on the blasting cables of the shutdown assembly and premature operation of the shutdown assembly are eliminated - the reliability of the operation of the system consisting of SVMG and DVMG is increased. Reduced labor costs during the experiment and the cost of equipment; the number of hazardous works with initiation means is reduced, the work on laying subversive lines and means of control over them is reduced. The number of subversive installations required for the experiment is reduced. Reduced labor costs for the preparation and verification of subversive installations before the experiment.

The calculation of the operating time of the disconnection unit and the time of its connection is transferred from the stage of preparation for the experiment to the stage of design design.

The invention is illustrated in the figure. In FIG. The following items are shown:

1 - explosive charge of a spiral explosive magnetic generator;

2 - inert inserts;

3 - detonation channels;

4 - explosive plate;

5 - the main explosive charge;

6 - internal electrode;

7 - insulator;

8 - external electrode.

The shutdown unit has cylindrical symmetry. It consists of an inner electrode 6 and an outer electrode 8, between which there is an insulator 7. The main charge 5 of the explosive is adjacent to the inner electrode 6, the mass of which should be sufficient to accelerate the inner electrode 6. The main charge 5 of the explosive is “connected” to the charge of the explosive substances of a spiral explosive magnetic generator by means of detonation channels 3 and explosive plate 4. Detonation channels 3 are round holes in inert (not exploding) inserts 2, s filled with explosive.

The claimed device operates as follows.

From the explosive charge 1 of the spiral explosive magnetic generator through detonation channels 3 (holes in inert inserts 2 filled with explosive, usually plastic), detonation is transmitted to the plate 4 from the explosive. Then, propagating in the direction from the axis to the periphery, it initiates the main explosive charge 5. The explosion products accelerate the inner electrode 6 in the axial and radial direction. The inner electrode 6 destroys the insulator 7 and connects to the outer electrode 8, thereby closing the electrical circuit of the DVMG, disconnecting it from the SVMG.

In order to confirm the feasibility of the claimed device and method, three experiments were carried out. The experimental device included a three-element disk explosive magnetic generator with a diameter of 250 mm, a spiral explosive magnetic generator with a diameter of 200 mm and the inventive shutdown unit. It consists of an internal and external electrode made of copper, between which is an insulator of sintered lavsan. To detonate the main explosive charge, 24 detonation channels were used, evenly spaced around the circumference and an adjacent plate of plastic explosive. In the experiments, the new shutdown unit made it possible to reduce the number of high-voltage blasting installations from three to two, the number of blasting cables was halved. The shutdown unit worked normally: with the estimated closure time of the shutdown unit 127 μs, the spread in the experiments was ± 0.5 μs. The closure occurred at the maximum current of the spiral explosive magnetic generator at a given point in time. The calculations showed that with a decrease in the detonation channel installation radius by 1 mm, the propagation time of the detonation wave along the explosive plate increases and, therefore, the response time of the shutdown assembly increases by 0.13 μs at a detonation velocity of the plastic explosive plate of 7.8 mm / μs.

Thus, the experiments using the inventive device and method showed that the labor costs and the cost of the equipment during the experiment were reduced and the reliability during operation was increased, i.e. the technical result is fully achieved.

Claims (2)

1. A method of disconnecting a disk explosive magnetic generator from a spiral explosive magnetic generator after charging the disk explosive magnetic generator with an initial current by closing the discharge circuit of the disk explosive magnetic generator at a time that coincides with the highest value of the charging current of the disk explosive magnetic generator from the spiral explosive magnetic generator upon initiation of the main explosive charge of the assembly shutdown, characterized in that the initiation of the main charge of the explosion man-made matter is carried out by transmitting the detonation wave from the explosive charge of the spiral explosive magnetic generator through the detonation channels, while the closure time of the discharge circuit of the disk explosive magnetic generator is selected by changing the length of the detonation channels. 2. A unit for disconnecting a disk explosive magnetic generator from a spiral explosive magnetic generator, containing the main explosive charge coaxially arranged, a device for initiating a primary explosive charge, an external and internal electrodes, an insulator between them, characterized in that the initiation device is an explosive charge of a spiral explosive magnetic generator, moreover, the connection of the explosive charge of a spiral explosive magnetic generator and the main explosive charge in exists satisfied axisymmetric axial detonation channels and radially disposed with respect to them a plate of the explosive.

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