DE2520202A1 - IGNITOR FOR A TWIST FLOOR - Google Patents

Description

Ε: - - "-» M 414a

Machine tool factory Oerlikon-Bührle AG

8050 Zurich

Detonator for a twist projectile

The invention relates to a detonator for a twist projectile with an electromagnetic ignition current generator and with an ignition chain for initiating an explosive charge of the twist projectile, the ignition current generator having a coil armature.

In a known igniter of this type, the ignition chain is arranged adjacent to the ignition current generator in the axial direction. It is disadvantageous that the ignition chain and the generator take up a lot of space, which is then used for further igniter

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parts or for the explosives is no longer available.

The invention is based on the object of creating a detonator, in which the ignition chain and the ignition current generator take up a smaller space.

According to the invention, this object is achieved in that at least part of the ignition chain is arranged in a hole in the coil armature.

In the drawing are two exemplary embodiments of the inventive Detonator shown and described in more detail below.

Show it: . ·

1 shows a longitudinal section through a projectile fuse with an electromagnetic ignition current generator according to a first one Embodiment;

Fig. 2 is a cross-section along line H-II in Fig. 1;

FIG. 3 shows a representation corresponding to FIG. 1 for a second exemplary embodiment; FIG.

FIG. 4 shows a cross section along line IV-IV in FIG. 3.

According to FIG. 1, the igniter has an igniter housing 1, which consists of a front housing part 2 and a rear housing part 3, which are connected to one another with screws 14, .26. Of the Detonator is in a blind hole .4 in a rear part 5 of a projectile arranged and is supported on the bottom of the same. The blind hole 4 is concentric to the axis of the floor. In a central Bore 6 of the rear housing part 3 are two in the

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Drawing dash-dotted detonator elements, a power storage? and control electronics 8 are arranged. The housing part 3 has a cover 9 with a forwardly projecting, cylindrical 'Approach 10 on,

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in which dec front housing part 2 is centered. The front housing part 2 has a groove 11, ii} the center plane of which Fuse axis lies. A two-pole armature 12 is arranged in the groove 11 (see FIG. 2) and has a hollow-cylindrical, central one Anchor part 15 with a bottom 15 a, which is on a The recess in the housing cover 9, which is concentric to the fuse axis, is supported. The front housing part 2 is supported under the pressure of the screws 14 / on an end face of the anchor part 15, whereby the armature 12 is positively connected to the igniter housing 1. Two arms projecting outward from the central anchor part 15 15 are supported on the extension 10 of the rear housing part 5. Two windings 16 are arranged on the arms 15. In a hole 15b in the armature part 15, an ignition element 17 is arranged as part of an ignition chain of the igniter. The one contained in a coat Ignition element 17 comprises an electrical one, not shown further ignitable, flame-generating primer. A contact pin l8 of the ignition element 17 protrudes through a hole in the bottom 15a of the Anchor part 15 into a plug part 19, which in the bore 6 of the rear housing 5 is arranged and engages in a bore in the housing cover 9. The plug 19 is not shown in FIG Way connected to the power storage 7.

The front face of the front housing part 2 has a recess 20a in which a rotor 20 is rotatably mounted, the axis of the rotor 20 being parallel to the projectile axis. The rotor 20 has an eccentric bore 21 in which a

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a part of the ignition chain forming detonator 22 is arranged. In a so-called focusing of the rotor 20, the axis falls the bore 21 with the Zunderachse together. The charge of the detonator can be initiated by the flame effect of the ignition element 17. The groove 11 is through holes 25 »24 in the housing 1 and in the rotor 20 in spatial connection with the bore 21 containing the detonator 22.

A cover 25 closes the detonator housing 1 towards the front. The detonator is held in place by a plate 102 which is inserted into a threaded part of the bore k of the projectile tail part 5. A capsule 27 containing a booster charge, which is concentric to the igniter axis, forms the last link in the ignition chain of the igniter. The capsule 27 is fastened in a bore 101 of the plate 102 and projects forward into an explosive charge 28 which is arranged in a projectile body part 29 screwed to the rear part 5.

An annular, two-pole field magnet 30 is arranged in an outer recess 31 of the igniter housing 1. The magnet 30 is firmly connected to a first race 32 of a longitudinal ball bearing / and is supported by balls 33 on a second race J> k . The balls 33 are not separated by a cage, so that to achieve the necessary load-bearing capacity of the bearing the correspondingly large number of balls can be arranged

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with it firmly connected first race 32 is supported on the balls 33, is denoted by 39. The second raceway 34 rests on a forward facing, at regular angular distances from one another arranged bulges 36 of a ring 35, which is located on a rear flank directed perpendicular to the fuse axis 37 of the annular groove 31 is supported. In Fig. 1, the magnet 30 is shown in the transport position in which he with his The end face is pressed against a front flank 38 of the annular groove 31 under the pressure of the prestressed bulges 36 of the ring 35 is held.

The structure described results in the following mode of operation :

Because the field magnet 30 is in the transparent position to the front flank is pressed, it is avoided that the magnet 30 rotates relative to the projectile before firing. When inserting the acceleration of the projectile when firing, the bulges 36 of the ring 35 under the action of the magnet 30 attacking inertial force compressed. This frees the magnet 30 so that it can move through what is now rotating with the projectile Igniter housing 1 does not receive a rotary drive. The inner and outer jacket surfaces of the magnet 30 and the race 32 are also free, in that they are at a distance both from the wall of the bore 4 and from the base 31a of the annular groove 31.

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As a result of its storage on balls, the magnet 30 takes off when fired under the action of the inertial force acting on him, the stable equilibrium position in which he is centered on the rear race 3 ^ and retains it when passing through the pipe. In this position, the magnet 30 touches neither the rear part 5 nor the detonator housing 1 its arrangement in the annular groove 31 of the igniter housing 1, that is to say on the largest possible diameter, the magnet 30 has a large Mass moment of inertia. Due to this large moment of inertia of the magnet 30 and its storage on a roller bearing occurs in the acceleration phase of the projectile in the weapon barrel a, large Relative speed between him and the armature coil 12, 16 on.

Characterized in that the primer 17 inside the bore 13b in the Armature part 13 is arranged, there is a significant space saving, which for the arrangement of other Zunderteile or the explosives can be exploited.

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In the second embodiment, according to FIGS. 3 and 4, a The detonator housing la is screwed into a rear part of a projectile body 29a and its shoulder 42 rests on the same at. The detonator housing 1 a has a bore 43, 44 which is offset in diameter and eccentric to the joint axis. In the closer Bore part 43, a rotor 20b is rotatably mounted. In the other Bore part 44 is inserted a disk 45 into which a capsule with booster charge 27a is screwed. the Capsule with booster charge 27a protrudes into an explosive charge 28a contained in projectile body 29a. The booster charge 27a is standing through a bore 46 in spatial communication with the bore part 43. A detonator 22a is in a through bore 21b of the rotor 2Gb, whose distance from the rotor axis is the same as the distance between the rotor axis and the bullet axis. on the detonator housing la has a diameter on its rear side stepped bore 47, 48-on. The front hole part opens into the bore 43 containing the rotor 20b and is separated from the rear bore part 48 by a shoulder 48a.

A base piece 49 of the projectile rests with a flange 50 on the detonator housing la and has a sleeve-shaped extension 51 which protrudes into the bore 48 and is screwed to the igniter housing la. Between the end face of the projection 51 and an annular permanent magnet 30a is arranged on the shoulder 48a. The base piece 49 has a central blind bore 52. In this blind bore 52, a ball 53 is arranged over which A cup-shaped cage 55 is located on the base piece 49 its pin 54 is supported. The cage 55 has in its front

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Edge two diametrically opposite, not shown Incisions in which a carrier 56 is attached. The carrier 56 is in the detonator housing via its sleeve-shaped extension 57 la stored. The carrier 56 simultaneously forms the armature core on which a coil 58 is wound off-center. On the carrier 56, diametrically opposite the coil 58, is a piezo quartz 59 at the base of an open towards the rear end face Bore of the carrier 56 arranged. In this bore an insulating body 60 is also arranged, in which an inertial body 61 is movably mounted and rests on the piezo quartz 59. The carrier 56 has a bore 62 which is co-axial to the projectile axis, in which has a primer 17a with a flame generating primer is used. One pole of the electrical ignition circuit for the ignition means is connected to the mass of the carrier 56, the other pole protrudes in the form of a contact pin 18a into a control piece 63 which is mounted in an insulating piece 64 is. In the cage 55, a rectifier and a capacitor are also arranged in a manner not shown, wherein the capacitor via a circuit that controls various operating states of the detonator, also not shown, with the Primer 17a is connected.

The structure described results in the following mode of operation : Before firing, the firing chain consisting of the primer 17a, the detonator 22a and the capsule with booster charge 27a is interrupted in that the detonator 22a lies outside the axis of the projectile

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the ball 53 penetrates under the load of the cage 55 acting Inertial force into the bottom piece 49 by a small amount a. This gives the cage 55 its freedom of movement, so that it can be rotated relative to the projectile. During the passage of the projectile through the barrel, the projectile is accelerated to a very high speed. Since the pin 54 of the cage 55 If a frictional force acts on only a very small lever arm, it experiences a correspondingly small rotary drive. The speed of the cage 55 is therefore only very small because of its large mass moment of inertia, so that the power generation substantial speed difference between the rotary magnet 30a rotating with the projectile and the cage 55 is practically the same is the speed of the bullet.

After the bullet leaves the barrel, the rotor 20b rotated to close the ignition chain 17a, 22a, 27a. The inertia body 61 is caused by the piezo quartz when it hits the target 59 braked. The current generated by the inertia body 61 when the piezo quartz 59 is loaded will not be discussed in FIG Way used to control the ignition of the flame igniter in the primer 17a. Through the primer 17a is on the Detonator 22a and the booster charge 27a initiated the detonation of the projectile explosive charge 28a.

As a result of the use of the carrier 56 as an armature coil, the length of the cage 55 can be kept relatively small. Through this axial To save space, the projectile can hold a larger amount of the explosive 28a.

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Claims (2)

11 ^{M 414a} Claims M.) Tinder for a twist projectile with an electromagnetic one Ignition current generator and with an ignition chain to initiate an explosive charge of the twist projectile, whereby the ignition current generator has a coil armature, characterized in that at least a part (17 or 17a) of the ignition chain (17, 22, 27, or 17a, 22a, 27a) is arranged in a bore (13b, or 62) in the coil armature (12, or 56). 2. Igniter according to claim 1, characterized in that the part is a detonator (17, or 17a) with a flame-generating Primer is. 50984670857 Blank page