DE1121519B - Low-gas delay set for the ignition of pyrotechnic devices - Google Patents

Description

Low-gas delay set for the ignition of pyrotechnic devices 1 To ignite pyrotechnic devices or ammunition, delay sets are required as time detonators, which are intended to delay the ignition of the device or ammunition after triggering for a predetermined period of time.

It is known that the earlier sets of delays are a proportionate a large amount of hot gases evolved, which was released through a vent of one of the The delay tube containing the delay set in the pyrotechnic device or the ammunition body escapes. This abrupt gas evolution caused audible Noises and betrayed 1-derby the launching or dropping point of the relevant Device or body. In addition, this could be more or less large, due to the delay rate caused gas development can also be dangerous, especially in the case of exercise equipment, the shape of which corresponds to normal ammunition, but which as a rule does not include Explosives are filled; here it happened that the hollow body in unauthorized Way opened and with powder or the like. g, was filled in order to be as strong as possible To be able to generate a bang. The one from the vent of the delay tube escaping hot gases cause this powder to ignite, so that the completely harmless exercise ammunition could suddenly become dangerous.

For these reasons, the so-called low-gas delay rates were used made on the basis of oxygen carriers and metal with balanced or negative oxygen balance.

According to the invention it is now proposed several independent parts or zones of the delay rate of different percentage composition to be connected in series. the parts or zones adjacent to the detonator have a higher ignition sensitivity and / or a higher heat development capacity than the rest of the parts.

This ensures that the ignition of the delay set with maximum security and can be achieved with relatively simple means.

Known oxygen compounds can be used as oxygen carriers such as oxides, peroxides, chromates, perchlorates; as metals in particular Silicon, but also others, such as aluminum or possibly zirconium-nickel alloys.

In the drawing, a so-called delay tube is now shown in section, which can be used in a pyrotechnic device, in an ammunition body or the like, but preferably in the body of a practice ammunition. This delay tube has a holder 1 into which the tube 2 is screwed and the primer 3 is inserted; the holder itself is attached to the device to be ignited in a manner known per se.

In this delay tube 2 is now the so-called delay set, namely in the upper part of the first set of composition 3 and at the bottom of the second set of composition 30. The holder 1 is provided in the known devices with a vent, the dash-dotted lines in the drawing indicated and 10 was designated. This degassing opening is no longer necessary with a low-gas delay set because no gas is produced as a combustion product and there is no excess oxygen; yes, it is to be avoided in any case, so that the entire delay unit is sealed off.

The rule given in the introduction, according to which the low-gas delay rate should consist of a special composition of the individual components, can be carried out according to the following examples, assuming that the delay rate, as shown in the figure, consists of several parts. The following examples are intended for a delay time of 4.5 seconds: Example 1 Composition 1 (Part 3 of the drawing) Lead dioxide ....................... 55% Potassium perchlorate ................ 25% silicon ......................... 20% sentence composition 11 ( Part 30 of the drawing) Lead dioxide ....................... 230A Barium chromate .................. 27 % Silicon ......................... 40% barium fluorite .................... 10% Example 2 Composition 1 (part 3 of the drawing) lead dioxide ....................... 509le silicon ............ ............. 20% barium chromate .................. 15% barium fluorite ............. ....... 10% Composition II (Part 30 of the drawing) Barium chromate .................. 75% Aluminum Pyroschüff ........... .. 25% Example 3 Composition I (Part 3 of the drawing) Barium peroxide .................. 800/0 Silicon ............. ............ 20% Composition II (part 30 of the drawing) Red lead ......................... 57% Potassium perchlorate ................ 18% AluminumpyroscMff ............. 25% Example 4 Composition 1 (Part 3 of the drawing) As in Example 3 Composition 11 ( Part 30 of the drawing) barium chromate .................. 60% lead dioxide ....................... 20% In all of these examples, the released oxygen fraction of the selected oxygen carrier corresponds to the oxygen requirement for the combustion of the respective metal involved; furthermore, no gaseous combustion products are produced in these compositions.

It can be seen from the individual compositions that the first Composition of the sentence, i.e. the one that is adjacent to the detonator, a particularly high one Has ignition sensitivity and particularly high ability to generate heat.

Claims (1)

PATENT CLAIM: GasarrneVerzögerungssatzzusammensetzungzur ignition of pyrotechnic devices or ammunition, particularly blank ammunition, based on oxidizer and metal with balanced or negative oxygen balance, characterized by a number of separate, mutually downstream parts or zones of different percentage additives WO at the igniter adjacent parts have a higher ignition sensitivity and / or a higher heat development capacity than the other parts. Considered publications: German Patent Specifications No. 1006 770, 842 313.