RU204844U1 - Electric initiation device for fuses - Google Patents

Abstract

The utility model relates to the field of weapons, specifically to devices for testing fuses and their components in the electric method of initiation. The essence of the utility model is that to ensure reliability, safety and debounce, the initiation device contains a current source and a contactor in the electric detonator firing circuit. characterized by the fact that a thyristor is used as a switching element in the firing circuit, connected by the anode to the plus of the current source, and the cathode to the output of the electric detonator, the other output of which is connected to the minus of the current source, while the control electrode of the thyristor is connected to the anode through a limiting resistor and is normal open button.

Description

FIELD OF TECHNOLOGY

The claimed technical solution relates to the field of weapons, specifically to devices for testing fuses and their components in the electric method of initiation.

LEVEL OF TECHNOLOGY

When testing fuses, explosive devices and their components, the electric method of initiation is widely used - by detonating electric ignitors (electric detonators) from current sources. To control the supply of voltage to the electric igniter, especially when measuring the response time of the device under test, instantaneous switching elements such as buttons, toggle switches, and contactors are used. Mechanical contacts of these devices have low reliability, especially at high currents (about 5-10 A), and commutation is accompanied by bounce. The best results in test circuits are provided by the use of mercury contactors recommended by the industry standard for burn time test methods. In particular, a mercury button 48.2179, containing a switch SP of the PR-24 type, translated into an operating position by a mechanical system. In this case, the supply conductors break off from kinks and the mechanical drive fails.

The disadvantages of these technical solutions are the low reliability of mechanical and contact assemblies, the environmental hazard of mercury switches, and possible bounce during switching.

The problem to be solved by the claimed technical solution is to create a more reliable and easy-to-use device.

This problem is solved due to the fact that a thyristor is used as a switching element, which is turned on by a button with a low current load, and the initiation circuit has a short turn-on time and ensures the absence of bounce.

The technical result of the utility model is the creation of a reliable and easy-to-operate device for electrical initiation of fuses.

USEFUL MODEL DISCLOSURE.

The utility model is illustrated by the description and drawing (Fig. 1).

The device includes: thyristor 1, the anode of which is connected to the positive output of the current source 2, and the cathode is connected to the output of the electric detonator of the tested fuse 3, the other output of which is connected to the negative output of the current source. The control electrode of the thyristor is connected to the thyristor anode through the limiting resistor 4 and the normally open button 5.

IMPLEMENTATION OF THE USEFUL MODEL.

In the initial state, button 5 is open, thyristor 1 is closed and the electric detonator circuit 3 is de-energized. When button 5 is pressed, thyristor 1 opens and supplies current to detonate electric detonator 3. At the same time, a current much less than in the detonation circuit flows through the contacts of button 5, which creates conditions for its reliable and durable operation. The thyristor turns on when the button contacts are closed for the first time and does not depend on the possible contact bounce. After the electric detonator bridge burns out, the thyristor turns off, further ensuring safety in the firing circuit. In addition, this makes it possible to measure the response time of the electric detonator 3 when the oscilloscope is connected to the thyristor anode.

Claims (1)

A device for the electric initiation of fuses, containing a current source and a contactor in the electric detonator firing circuit, characterized in that a thyristor is used as a switching element in the firing circuit, made with the possibility of connecting the anode to the positive of the current source, and the cathode - with the possibility of connecting to the output of the electric detonator, another the output of which is connected to the minus of the current source, while the control electrode of the thyristor is connected to the anode through a limiting resistor and a normally open button.

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