DE19533487A1 - Ignition element with finely controlled sensitivity:insensitivity ratio - Google Patents

Abstract

The ignition element, consisting of a combination of 2 detonators, comprises a first detonator (hot wire detonator) contg. initiator(s), heat dissipating additive(s), oxidant(s) and a binder, and a second detonator (output detonator) contg. constituent(s) producing hot reaction particles, an oxidant and a binder. Also claimed are a 2-component ignition element in which the first detonator contains a heat-dissipating initiator and opt. a heat dissipating additive; and the first and second detonator per se.

Description

The invention relates to finely graduated primers for Kindling and kindling.

The effects of igniters and igniters are essentially determined by two factors. On the one hand, the reaction products should be rich in particles where possible and these particles should be as hot as possible, on the other hand, a transport gas must be provided for the particles so that the particles penetrate the propellant charge as well as possible. The transport gas should also have a correspondingly high temperature in order to maintain the particle temperature. Igniters and igniters containing a pyrotechnic fuel based on B / KNO₃ or Ti / Ba (NO₃) ₂ or TiH _x / Ba (NO₃) ₂ with x <1 or Zr / Ba (NO₃) ₂ and nitrocellulose, but also An Ignition and ignition elements that contain zirconium and potassium perchlorate generally meet these requirements.

In addition to these basic performance requirements but other properties that affect sensitivity and the safety of these igniters and igniters concern, vital for the Quality and applicability of such igniters and Ignition elements. These properties, the so-called elec trical characteristics are the ignition sensitivity (Aze), Ignition sensitivity (Azu) and ignition delay time (Azvz) of the individual sentences. Here the ignition says insensitivity something about safety and security  Ignition sensitivity or ignition delay time somewhat above that Ignition sensitivity of the ignition charges. So far, Zünd sentences with either sufficiently high insensitivity to ignition speed, but with too high values for the ignition temp sensitivity or the ignition delay time, d. H. with too ge ringer ignition sensitivity or detonators with enough low ignition sensitivity and ignition delay time, but not known to be insensitive to ignition.

The object of the present invention was to ignite and igniter elements, in the following briefly igniter elements called to provide, in addition to sufficient Performance depending on the application, finely graduated values for the sensitivity to ignition and the sensitivity to ignition have without the ignition delay time be significantly is impaired.

According to the invention, this object was achieved by Providing and combining two in their own different ignition rates. Here is the 1. Ignition charge, the so-called glow wire set, responsible for the electrical characteristics, during the 2nd primer, the so-called benefit rate, is responsible for the Power. It was surprisingly found that to increase the ignitability of the filament rate, without affecting the ignition delay time, the Ensuring high heat dissipation in the filament sentence is of particular importance. This will be inventive according to an additive that is capable of to dissipate the heat. This heat-dissipating additive will selected from substances known to heat up can take and thereby extract heat from the environment. Examples of such substances can be inorganic or  also be organic in nature, such as metals, metal compounds or organometallic compounds.

In a first embodiment of the glow wire set who according to the invention as heat-dissipating constituents talle or metal connections provided. As metals find preferably zirconium, aluminum, titanium and / or Ferrotitan use. Zircon is particularly preferred. For example, borides and Hydrides of the metals mentioned are used. Especially zirconium boride and zirconium hydride are preferred. Next these heat-dissipating metal additives contain the Glow wire sets of the ignition elements according to the invention min an initial explosive, for example lead azide, diazodinitrophenol, silver azide, tricinate or pi crate, preferably lead picrate, and an oxidation agents, such as alkali metal or alkaline earth metal nitrates, -chlorate, -perchlorate, preferably KClO₃ and / or KClO₄, particularly preferably KClO₄ and a binder. The Binder is not just for connecting the one individual components, but also for the temperature responsibility of the ignition elements responsible; You should have a temperature resistance of <85 ° C. He Binders suitable according to the invention are therefore polyvinyl acetate, polysulfone or polyethersulfone. Preferably polyvinyl acetate is used. During heat-resistant additive should increase the sensitivity to ignition, the initial explosive used is responsible for ensuring the necessary sensitivity to ignition. Glow wire sets of the first type suitable according to the invention leadership form consist of 20 to 80 parts Initial explosive, preferably lead picrate, 20 to 80 Sharing a mixture of heat-dissipating additive and Oxidizing agent and 1 to 6 parts of binder. The Wed  combination of heat-dissipating additive and oxidizing agent is composed of 60 to 90 parts of heat-dissipating Additive and 10 to 40 parts of oxidizing agent.

In a second embodiment of the filament set as a heat-dissipating component according to the invention primary explosive, preferably silver azide, if necessary in combination with further heat dissipation the components such as metals, metal compounds or organometallic compounds provided. As metals In this embodiment, zirconium, aluminum, Titanium and / or ferrotitanium, as metal compounds borides and hydrides, preferably zirconium boride and zirconium hydride be used. The particular advantage in use Formation of silver azide is that it is simultaneously used as heat-dissipating additive acts and in its own Ignition sensitivity as the initial explosive improved. Exclusively silver according to the invention used azide, then the filament set consists of 100 Parts of silver azide and 1 to 6, preferably 4 parts Binder. As a binder with the same functions as in the first embodiment, it is preferred Polyvinyl acetate used.

The power rate according to the invention consists of a Be component that produces hot reaction particles, one of the above oxidizing agent and one of said Binder. As a component, the hot reaction party generated zircon is in its different kri stable modifications, titanium or their mixtures net. As an oxidizing agent, for example KClO₃ and / or KClO₄, preferably KClO₄ can be used. As + Binder are preferably the same substances as  used for the filament set. Suitable according to the invention The benefit rates consist of 30 to 80 Share zirconium, titanium or their mixtures, 20 to 70 Parts of oxidizing agent, preferably KClO₄ and 1 to 6 Share binder. Preferably a mixture of 60 parts of zircon, 40 parts of KClO₄ and 4 parts of polyvinyl acetate used.

The primers according to the invention can be varied Be used alone or in combination. Becomes the glow wire set according to the invention with the fiction combined performance rate, so result in fine stepless ignition elements.

The ignition elements according to the invention are manufactured for example as follows. The components of the glow wire rate and the rate are screened and in the binder dissolved in a suitable solvent slurried tel. If you use polyvinyl acetate as a bin detergent, butyl acetate is a suitable solution medium. This slurry is made submersible, i. H. the viscosity is adjusted accordingly. By beson whose importance is that the components during do not sediment during diving. To guarantee this Most, for example, the ignition sludge is under Precautions by gently stirring homo embarrassed. Ignition elements are generally in shape made from squibs. A common squib consists for example of two electrically conductive, elongated pole supports (lamellae), which by means of insulating web are connected and one, the pole carrier-connecting glow plug. Such squibs  basic body is ge several times in the primer slurry dives in such a way that the 1st primer is the glow plug encloses. The diving process is repeated until the sufficient amount for the respective application Glow wire set mixture is applied. For the 1st Zünd Amounts of 6 to 10 mg have proven effective. Between the solvent is placed in the individual dives given to evaporate. After the filament set is in in the same way the power rate as a shell around the glow wire set applied. For this sentence too Repeat the dive until the one for each Intended use sufficient amount of power rate mix is applied. As primer weight for the entire primer pill have 50 to 100, preferably 65 to 85 mg proven. After the squib was dried for 24 hours the squib is still covered with a 20% varnish coated with the respective binder and again 48 h dried.

The primers according to the invention can be turned on The binder used is used at high temperatures resistant igniters. Will be used as a binder for example polysulfone or polyethersulfone used, can the primers according to the invention at temperatures of up to 250 ° C can be used. The invention Ignition elements are particularly suitable for the Ignition of propellants that have long exposure times require hot flame, as well as for insensitive blowing sets where hot metallic particles are required will.  

The primer mixtures specified in Table 1 sol len explain the invention in more detail, but without one restrict.

The following filaments were used:
Gd. I: Cr / Ni 2938 Ohm / m bl. H. 0.5 mm
Gd. II: Cr / Ni 2823 Ohm / m bl. w. 0.5 mm
Gd.III: Cr / Ni 2827 Ohm / m bl. H. 0.5 mm
DG IV: Cr / Ni 2631 Ohm / m bl. w. 0.7 mm
Gd. V: Cr / Ni 2649 Ohm / m bl. H. 0.7 mm
Gd. VI: Cr / Ni 2649 Ohm / m bl. H. 0.5 mm.

Claims (24)

1. Ignition element from a combination of two priming sets, characterized in that the first priming set (filament set) contains at least one initial explosive, at least one heat-conducting additive, at least one oxidizing agent and a binder, and the second priming set (power set) contains at least one component contains, which generates hot reaction particles, contains an oxidizing agent and a binder. 2. Ignition element according to claim 1, characterized records that as the initial explosive of the filament lead azide, diazodinitrophenol, silver azide, Picrate or tricinate, preferably lead picrate is set. 3. Ignition element from a combination of two ignition rates, characterized in that the first Zünd set (glow wire set) a heat-dissipating initial explosives or a heat-dissipating initial explosives with a heat-dissipating additive and contains a binder and the second primer (Benefit rate) ent at least one component that generates hot reaction particles Contains oxidizing agents and a binder. 4. Ignition element according to claim 3, characterized records that as a heat-dissipating initial explosion Silver azide fabric is used.   5. ignition element according to one of claims 1 to 4, characterized in that as a heat dissipating Addition of inorganic or organic heat absorption mende substances, preferably metals, Metallver bonds or organometallic compounds ver be applied. 6. Ignition element according to one of claims 1 to 5, there characterized in that as a heat-dissipating additive Zircon, aluminum, titanium, ferrotitanium, metal composite dung, preferably zirconium boride or zirconium hydride or a mixture of these heat-dissipating additives is used. 7. Ignition element according to one of claims 1 to 6, there characterized in that the hot reaction particle Generating component in the zircon in power set different crystal modifications, titanium or their mixtures exist. 8. Ignition element according to one of claims 1 to 7, there characterized in that KClO₃ as the oxidizing agent and / or KClO₄ is used. 9. Ignition element according to one of claims 1 to 8, there characterized in that polyvinyl, acetate, polysulfone or polyethersulfone, preferably Polyvinyl acetate is used. 10. Ignition element according to one of claims 1 or 2 characterized in that the filament set from 20th  up to 80 parts of picrate, 80 to 20 parts of a mixture from heat-dissipating additive according to claim 5 and Oxi dationsmittel according to claim 8 and 1 to 6 parts Binder according to claim 9, preferably 4 parts Binder according to claim 9. 11. Ignition element according to claim 10, characterized net that the mixture of heat-dissipating additive and Dissipate the oxidizing agent from 60 to 90 parts the addition and 10 to 40 parts of KClO₄. 12. Ignition element according to one of claims 3 to 9, there characterized in that the filament set consists of 100 Share heat-dissipating explosives, preferably as silver azide and 1 to 6 parts, preferably 4 Parts of the binder exist. 13. Ignition charge consisting of at least one initial explosives, at least one heat dissipating material set, at least one oxidizing agent and one Binder. 14. Ignition charge according to claim 13, characterized in that that as the initial explosive lead azide, diazodinitro phenol, silver azide, picrate or tricinate, preferred wise lead picrate is used. 15. Ignition set consisting of a heat-dissipating Ini explosives or a heat-dissipating initial explosives with heat-dissipating additive and a Binder.   16. Ignition charge according to claim 15, characterized in that as a heat-dissipating explosive, silver azide is used. 17. primer according to one of claims 13 to 16, there characterized in that as a heat-dissipating Zu set of inorganic or organic heat absorbing Substances, preferably metals, metal compounds gene or organometallic compounds used will. 18. Primer consisting of one component, the hot one Reaction particles generated, an oxidizing agent and a binder. 19. Ignition charge according to claim 18, characterized in that the healthy reaction particle producing stock part made of zircon in different crystal modifi cations, titanium or mixtures thereof. 20. Ignition charge according to one of claims 13 to 16, there characterized in that as a heat-dissipating Zu Set of zircon, aluminum, titanium, ferrotitanium, metal compounds, preferably zirconium boride or zirconium hydride or a mixture of these heat-dissipating Ignition charges is used. 21. Ignition charge according to one of claims 13 to 20, there characterized in that as an oxidizing agent KClO₃ and / or KClO₄ is used.   22. Ignition charge according to one of claims 13 to 21 that as a binder polyvinyl acetate, polysulfone or Polyether sulfone, preferably polyvinyl acetate ver is applied. 23. Ignition charge according to claim 13 or 14, characterized notes that it consists of 20 to 80 parts of picrate, 80 up to 20 parts of a mixture of heat-dissipating Additive according to claim 5 and oxidizing agents according to claim 8 and 1 to 6 parts of binder ge according to claim 9, preferably 4 parts of binder according to claim 9. 24. Ignition charge according to claim 23, characterized in that the mixture of heat-dissipating additive and Oxidizing agent from 60 to 90 parts heat-resistant additive and 10 to 40 parts of KClO₄.