RU2550713C1 - Proximity fuse - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: proximity fuse comprises a housing, in which cavity the current source is mounted, a signal processing unit, a safety-detonating mechanism comprising a contact assembly and a detonator. Additionally, two transmission devices with thermo-opening membranes are mounted, an electron-time device arming, and a self-destruction unit. The transmission devices with their thermo-opening membranes are placed on the outer surface of the housing. The output contacts of the transmission devices are connected by the electric wires to the input terminals of the current source. The signal processing unit is connected by the electric wires to the electron-time arming device, a contact assembly of safety-detonating mechanism and a unit of self-destruction. The output terminals of the current source are connected by the electric wires to the signal processing unit.

EFFECT: increase in reliability of triggering.

2 dwg

Description

The invention relates to fuses and can be used to remotely initiate an explosive device.

A non-contact fuse is known that contains a source of electricity, an electric initiator triggered by heating the explosive, and a contact system connecting the initiator to a source of electricity (see US Patent No. 3111089, 1963, C1. 102/216).

The disadvantage of this design is the low reliability.

The closest technical solution to the invention is a non-contact fuse containing a housing in the cavity of which a current source is installed, a signal processing unit, a safety detonating mechanism including a contact assembly and a detonator (see Patent RU No. 2256147 C1, F42C 14/04, 2004 .).

The disadvantage of this technical solution is the low reliability.

The objective of the invention is to increase reliability.

The technical result obtained by carrying out the invention is as follows.

A non-contact fuse, comprising a housing in which a current source is installed, a signal processing unit, a safety detonating mechanism including a contact assembly and a detonator, two additional transmission devices with thermally expanding membranes, an electronic-temporary cocking device and a self-liquidation unit, two transmitting devices thermally open membranes are placed on the outer surface of the housing, the output contacts of the two transmitting devices are connected by electrical wires to the input by the contacts of the current source, the signal processing unit by the wires is connected to the electronic-time cocking device, the contact node of the safety-detonating mechanism and the self-liquidation unit, while the output contacts of the current source by the electric wires are connected to the signal processing unit.

This design of a non-contact fuse provides a solution to the problem.

Thus, the proposed solution has a novelty and inventive step.

In figure 1, 2 shows a non-contact fuse.

In the cavity 1 of the housing 2, a current source 3 is installed with input contacts 4, 5 and output contacts 6, 7, a signal processing unit 8, a safety detonating mechanism 9, including a contact assembly 10 and a detonator 11, transmission devices 12, 13 with thermally opened membranes 14 , 15 and output contacts 16, 17 and 18, 19, an electronic-temporary cocking device 20 and a self-liquidating unit 21. The transmission devices 12, 13 are installed in the openings 22, 23 of the housing 2 in such a way that the thermally opened membranes 14, 15 are placed on the outer surface 24 housing 2, out the contacts 16, 17 and 18, 19 of the transmission devices 12, 13 are connected by electric wires 25 to the input contacts 4, 5 of the current source 3. The output contacts 6, 7 of the current source 3 by the electric wire 25 are connected to the signal processing unit 8. The signal processing unit 25 is connected with electronic-temporary cocking device 20, contact node 10 of the safety-detonating mechanism 9 and self-liquidation unit 21.

Non-contact fuse works as follows.

At an ambient temperature of 1000-1500 ° C, thermally open membranes 14, 15 of the transfer devices 12, 13 are destroyed. In this case, the current supplied to the input contacts 4, 5 of the current source 3 is excited at the output contacts 16, 17. a current source 3, an electric current is excited, which from the output contacts 6, 7 is supplied to a signal processing unit 8, an electronic-time charging device 20, a contact assembly 10 of the safety-detonating mechanism 9, and a self-liquidating unit 21.

Claims (1)

A non-contact fuse, comprising a housing, in the cavity of which a current source is installed, a signal processing unit, a safety detonating mechanism including a contact assembly and a detonator, characterized in that two additional transfer devices with thermally expanding membranes, an electronic-time cocking device and a self-liquidation unit are introduced two transmission devices with their thermally expanding membranes are located on the outer surface of the housing, the output contacts of the two transmission devices are electric E coupled to input terminals of the current source, a signal processing unit connected to the electric cables electron-time charging apparatus, the contact assembly slam-detonating self-destruct mechanism and the unit, the output terminals of the current source electric cables connected to the signal processing unit.

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