RU2675000C1 - Induction igniter - Google Patents

Abstract

FIELD: manufacturing technology.SUBSTANCE: invention relates to the field of electric means of ignition, namely to the means of initiation of explosives (EXPL), pyrotechnic compositions (PTC), powders, and can be used in devices of explosive automation. Induction igniter consists of body 1 and liner 2, which is made of a dielectric material in the form of a glass with a deaf bottom with different wall thicknesses. In the lower part of liner 2, made with a smaller wall thickness, inductor 5 is installed. In the inner cavity of liner 2 is pressed igniter hinge 3, made of explosive material, which contains metal particles or particles of graphite, performing the initiating function during heating. Liner 2 and inductor 5 are installed inside housing 1, made in the form of a hollow cylinder with a bottom having two holes for the electrical leads of inductor 5. Cavity between inductor 5, liner 2 and housing 1 is filled with glue 4.EFFECT: invention allows to increase the reliability and safety of the device.6 cl, 1 dwg

Description

The invention relates to the field of electric means of ignition, and in particular to means for initiating explosives (BB), pyrotechnic compositions (PTS), gunpowder, and can be used in explosive automation devices.

Known means of initiation described in the patent of the Russian Federation No. 2 124 689, IPC F42B 3/10, F42C 19/12, publ. 01/10/1999, containing a detonator capsule, an electric igniter winding on a ferrite ring, placed in an insulating sleeve with a through hole for the primary circuit wire. The hole is made parallel to the sleeve of the detonator capsule and with an offset greater than the radius of the sleeve. A protrusion is made on the insulating sleeve with a height exceeding the diameter of the primary circuit wire. The options for initiating means are distinguished by the use of a fixing sleeve on the wires, their molding, and also various types of marking. The invention allows to reduce the complexity of manufacturing, improve the electrical characteristics of the detonator and increase the manufacturability of the product.

The disadvantages of the device include the complex configuration and unreliability in operation due to the fact that during operation there is an increased risk of inducing current in the secondary coil of electromagnetic fields due to extraneous sources. Another disadvantage of this method is that to ensure reliable ignition of the charge, a certain orientation and close proximity of the primary and secondary coils, as well as a very powerful power supply system are required.

The closest and selected as a prototype is an electric igniter device described in RF patent No. 2196954, IPC F42B 3/12, publ. January 20, 2003. The device in question comprises a housing with an initiating charge located in it, through holes located at the bottom of the housing, with leads installed therein.

The disadvantage of this solution is the presence of additional structural elements, leading to a complication of the design and the complexity of manufacturing.

The objective of the invention is to improve operational capabilities while increasing the safety of the device, increasing the heat resistance of the device, while maintaining its high initiating ability, reducing weight and size characteristics with increasing security to external abnormal electrical pulses applied to the terminals of the igniter and resistance to static electricity discharges.

The technical result is to increase reliability in the event of a discharge of static electricity, achieved by eliminating the contact between the igniter and the terminals of the inductor and eliminating electrical breakdown between the housing and the inductor.

The specified technical result is achieved by the fact that the induction igniter comprising a housing with an initiating charge placed in it, through holes located at the bottom of the housing, with pins installed in them, according to the invention, is equipped with a dielectric insert installed inside the housing and made in the form of a glass with a blank bottom, with walls of different thicknesses, and an inductor, hermetically fixed between the housing and the outer side of the liner, the wall of which has a smaller section in cross section, which are located in the through holes of the housing, while the initiating charge is pressed into the inner cavity of the liner and is made in the form of an ignition hinge.

In addition, the igniter hinge is made of a pyrotechnic composition.

In addition, the igniter is made of gunpowder.

In addition, the igniter hinge is made of explosive material with the addition of metal particles.

In addition, the igniter hinge is made of explosive material with the addition of graphite particles.

In addition, the inductor is fixed with adhesive.

The presence in the claimed invention features that distinguish it from the prototype, allows us to consider it appropriate to the condition of "novelty."

New features (the device is equipped with a dielectric insert installed inside the case and made in the form of a glass with a blank bottom, with walls of different thicknesses, an inductor fixed tightly between the case and the outside of the insert, the wall of which has a smaller section in cross section, the findings of which are located in through housing openings, while the initiating charge is pressed into the inner part of the liner and is made of explosives) are not identified in technical solutions for a similar purpose. On this basis, we can conclude that the claimed invention meets the condition of "inventive step".

The invention is illustrated in the drawing, where

1 - housing;

2 - liner of dielectric material;

3 - igniter hitch (BB, PTS, gunpowder);

4 - adhesive composition;

5 - inductor with leads;

Induction igniter consists of a housing 1 and a liner 2, which is made of a dielectric material, for example, press material AG-4C GOST 2043789, in the form of a glass with a blank bottom with different wall thicknesses. An inductor 5 is installed in the lower part of the liner 2, made with a smaller wall thickness. The inductor 5 is made of copper wire, the cross section and the number of turns are determined based on the required frequency of activation of the induction igniter. In the internal cavity of the liner 2, an igniter hinge 3 is pressed, made of explosive material, which contains metal particles or graphite particles that perform an initiating function when heated. The insert 2 and the inductor 5 are installed inside the housing 1, which is made in the form of a hollow cylinder with a bottom having two holes for the electrical terminals of the inductor 5. The cavities between the inductor 5, the insert 2 and the housing 1 are filled with glue 4.

The claimed device operates as follows.

When applying an alternating electric current to the terminals of the induction igniter in the inductor 5, an alternating electromagnetic field occurs, an EMF appears in the metal particles or in the graphite particles. Under the influence of EMF in particles of metal or graphite, a current arises whose frequency coincides with the frequency of the primary current, this leads to an increase in temperature and the use of an ignition sample 3.

When a current supply is not of the appropriate frequency, the strength of the electromagnetic field will be insufficient to heat the metal particles. When applying a direct current to the terminals of the inductor 5 of the induction igniter, a short circuit occurs, which destroys the inductor 5.

In the induction igniter, there is no contact between the igniter 3 and the electrical terminals of the inductor 5. When static electricity is discharged between the liner 2 and the electrical terminals of the inductor 5, an electrical breakdown occurs, the charge flows through the inductor 5.

Thus, thanks to the proposed device, safety is achieved when exposed to abnormal electrical pulses and discharge of static electricity.

An example of a specific embodiment is a device in which copper oxide (80% CuO) and finely dispersed aluminum (20% Al) are used as an ignition hinge 3, and an ignition hinge 3 is pressed into the inside of the liner 2. The liner 2 is made of press material (AG-4C GOST 2043789) in the form of a glass with a blind bottom of a stepped section, the height of which is 18 mm, the diameter is 12 mm, and the diameter of the coil installation is 8 mm. The coil is made in the lower part of the liner of 12 turns of copper wire (PET-imide TU 16-502.022-82) with a diameter of 0.3 mm. Case 1 is made of press material (AG-4C GOST 2043789) in the form of a hollow cylinder with a wall thickness of 0.5 mm at the bottom of which two through holes with a diameter of 0.3 mm are made. 50 mm long, 0.3 mm diameter electrical holes are threaded into the holes. The voids between the coil and the thermowell are filled with glue 4 (EL-20 OST V951654-75).

Thus, the above information indicates that when using the invention the following set of conditions:

- for the claimed invention in the form described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed;

- induction igniter, embodied in the claimed invention in its implementation, is able to achieve the specified technical result.

Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (6)

1. Induction igniter, comprising a housing with an initiating charge placed in it, through holes located at the bottom of the housing, with pins installed in them, characterized in that it is equipped with a dielectric insert installed inside the housing and made in the form of a glass with a blank bottom, with walls of different thicknesses and an inductance coil sealed between the housing and the outer side of the liner, the wall of which has a smaller thickness in cross section, the terminals of which are located in the through holes of the housing and, wherein the booster charge is press-fitted into the inner cavity of the liner and is made in the form of igniting sample. 2. The induction ignitor according to claim 1, characterized in that the igniter hitch is made of a pyrotechnic composition. 3. The induction igniter according to claim 1, characterized in that the igniter hitch is made of gunpowder. 4. The induction ignitor according to claim 1, characterized in that the inductance coil is fixed with an adhesive composition. 5. The induction ignitor according to claim 1, characterized in that the igniter hitch is made of explosive material with the addition of metal particles. 6. The induction ignitor according to claim 1, characterized in that the igniter hitch is made of explosive material with the addition of graphite particles.

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