DE2543830C2 - Detonator for training bullet - Google Patents

Description

The invention relates to a fuse for training projectiles with several independently acting Ignition chains and with a transfer charge assigned to each of these ignition chains when they are ignited initiable booster charge.

Such a detonator is from DT-PS 12 18 311 known.

It is the object of the invention to provide a fuse for a training projectile that this also with a partially damaged booster charge safely dismantled after firing.

According to the invention, this object is achieved by the characterizing features of claim 1. Advantageous further developments of the same are characterized in the subclaims.

In known detonators with a one-part booster charge, it can happen that the Booster charge was initiated by a first ignition chain, but only did not detonate charred. If this occurs, the subsequent initiation process also remains through a further ignition chain without effect. This is where the advantages of the invention come into play. It can be with a detonator with a three-part booster charge it can also happen that a partial booster charge has been initiated, but did not detonate. According to the invention, however, there are still two further partial amplifier charges Available that can be initiated independently of one another by a further ignition chain. The probability the dismantling of a training bullet is in a three-part booster charge compared to a one-part Booster charge many times higher.

The invention is described in more detail below with reference to the drawing. In the figure is the structure of a Detonator partially shown schematically in perspective and exploded.

The detonator has three detonating chains 1, 2 and 3 that act independently of one another, the functional sections of which are shown as dash-dotted lines in the drawing are registered. The first ignition chain 1 has a pyrotechnic triggering device known per se intended. In detail, it has a firing pin assembly 11, a pyrotechnic ignition delay set 12, a rotor 13 with an inserted detonator 14 and a subsequent to the rotor Transfer charge 15 on. The second ignition chain 2 has a time-release device 21, which is also known provided, which consists of a time and safety clockwork, to which a rotor 22 with embedded Detonator 23 and a transfer charge 24 connects. The third ignition chain 3 has a piezoelectric Impact triggering device 31 with squib 32 and lead gear 33. The latter is a first rotor 34 with an inserted detonator 35, an ignition pill 36, a second rotor 37 with an embedded detonator 38 and this is followed by a transfer charge 39. The forward drive 33 is used as a safety device a second firing pin assembly 40 is assigned. The forward drive 33 is exposed several unspecified wheels, a firing needle 41 and a toothed segment 42 together, The toothed segment 42 serves to axially secure the ignition needle 41. The latter is constantly under pressure exposed to a spring 43; Finally, a switch 44 is arranged in the displacement path of the same, which can be closed by the ignition needle 41 when it is released by the toothed segment 42.

The three transfer charges 15, 24 and 39 are inserted in a carrier plate 50 and there in particular in three through bores. The carrier plate itself directly adjoins the three rotors 13, 22 and 37 and is fixed in a pot-shaped detonator housing 51, which is only partially shown in the drawing. A three-part booster charge is arranged between the carrier plate 50 and a base plate 52 of the igniter housing 51. The tripartite division of the booster charge is achieved by first inserting a separating element 53 into the cup-shaped detonator housing 51, which consists of three intermediate walls 53a, 536 and 53c joined together in a star shape, each leading away from the inner wall 51a of the detonator housing, and into the sector-shaped spaces created in this way Booster charge filled in or preformed booster charge tablets 54a, 54b and 54c inserted. The separating member 53 is made in one piece from a dimensionally stable and heat-resistant material, primarily from plastic.

The three transfer charges IS, 24 and 39 in the Carrier plate 50 are in contrast to the three-part booster charge by a metal foil 55, primarily Sealed from aluminum This ensures that each of the three booster tablets is opposite the other two spatially and thermally isolated

and flashovers are prevented when a booster charge tablet is initiated.

The three booster tablets are spatially arranged in the detonator housing 51 that they can be initiated centrally by the respective transfer charge assigned to it.

1 sheet of drawings

Claims (5)

Patent claims: 1. Detonator for training projectiles with several detonating chains acting independently of one another and with a booster charge which can be initiated when they are ignited by a transfer charge assigned to each of these detonating chains, characterized in that the booster charge is made up of at least two independently of one another by one detonating chain (1, 2, 3) in each case. initiatable partial amplifier charges (54a, 546, 5ic), which are spatially separated from one another by a separating element (53) and thermally insulated and also sealed from the transfer charges (15, 24, 39) by a cover, primarily in the form of a metal foil. 2. An igniter according to claim 1, characterized in that the booster charge consists of three booster partial charges (54a, 54b, 54c) which can be initiated independently of one another by a respective ignition chain (1, 2, 3). 3. igniter according to claim 2, characterized in that the booster charge consists of three, sector-like there is preformed, similarly composed boosting charge tablets. 4. An igniter according to claim 3, characterized in that the separating element (53) inserted into a pot-shaped igniter housing (51) consists of three intermediate walls (53a, 53b, 53c) which are joined together in a star shape and each from the inner wall (51a,) of the igniter housing (51) ) , whereby the three-part booster charge stored in its interstices, primarily the three preformed booster charge tablets (54a, 54b, 54c), are laterally separated from one another. 5. Igniter according to Claims 1 and 4, characterized in that the separating element (53) is in one piece is made of a dimensionally stable and heat-resistant material, primarily plastic.