DE702987C - All-round detonator, especially for hand grenades - Google Patents

Description

All-round impact fuse, especially for hand grenades The invention refers to an all-round charge fuse, especially for hand grenades the ignition by sliding on inclined surfaces and actuating the firing pin Inertial body takes place, between which a spring-loaded locking pin grips, which again is blocked by a safety device held by a locking pin.

For all-round impact fuze, where two inertial bodies are located to move towards each other when the hand grenade or bomb hits, it is known to have a locking body gripped between the inertia bodies as a backup. These Securing was made by the hurling movement when throwing the hand grenades or by her rollover solved after the throw. This training has the disadvantage that if the hand grenade is thrown but not yet thrown, the detonator is armed, so that there is no longer any backup. According to another known design the fuse of the detonator is only canceled after a certain period of time; however it took place The ignition is not caused by inertial bodies moving towards each other on impact, but by a spring-loaded firing pin that is unlocked on impact.

It is also known to use a spring-loaded detonator for all-side impact fuses Blocking for the inertial bodies that carry the primer and primer, to be provided, which is again blocked by a locking pin held will. With such detonators, the detonator is sharp after pulling the pin, which is undesirable in the case of hand grenades in order to avoid danger if accidentally dropped Avoid deduction. It is also named for a time control for spring-loaded ignition needles, a clockwork or a liquid damper to provide which or which the fuse releases after a certain time, so that one is in action in every direction of service stepping inertia weight releases the spring-loaded ignition needle through the impact.

To simplify in particular compared to the last-mentioned embodiment To achieve the detonator, cushioning of the ignition needle and thereby become necessary Intermediate links for triggering the ignition needle by means of an on impact on all sides To avoid moving inertial weight, "-earth the above-mentioned, through All-round impact detonators acting in terms of inertia weight are designed according to the invention in such a way that that via an end flange of the spring-loaded connector with one in a known manner a clockwork coupled swing-out nose engages, the swing-out by a with the nose connected control segment is prevented from being hit by the pin secured, spring-loaded locking pin that presses against the spring cotter pin is present.

Such a detonator can be used for both hand grenades and bombs get from an aircraft for dropping, find use, in particular with Installation of the detonator in hand grenades gives the possibility that after pulling it off of the grenade through the clockwork, the detonator only arises after it has been deliberately or prescribed time, with which the thrower also accidentally prematurely Case the hand grenade is protected. After the arming, the ignition takes place when the hand grenade hits the target, through the movement of the inertia body against each other.

The drawing shows, for example, an embodiment of the subject matter of the invention shown, namely: FIG. 1 shows a vertical section through an impact fuse with unwound clockwork, Fig. 2 shows a cross section along line II-II of Fig. i, 3 shows a plan view of the interior of the control element connected to a clockwork.

The percussion fuse consists of a housing i with a transverse Through hole 2. In this hole 2 there are three cylindrical impact bodies 3, 4, 5 of the same diameter, of which the body 3, the primer 6 and the Body 4 the ignition needle? wearing. The side of the body opposite the firing pin 4 has a conical surface 8 or some other curved surface against which a transverse to Bore direction movable body z. B. is a Kugel9 or a cone body, which, on the other hand, is held by a corresponding conical surface io of the impact body 5 will. The body 5 or also the body 3 can also be mounted firmly in the bore 2 be. So that the impact bodies 3, 4 and 5 are held in the bore 2, is over the bore ends pushed a cylindrical ring i i.

As soon as the detonator is armed, as n-i is described, and the The hand grenade or bomb in which the detonator is built will strike Bodies 3 and 4 in that the ball 9 tries to move on by inertia, approached each other by wedge action, and the primer 7 brings the primer 6 for ignition, the pilot flame through holes 12 and r3 in the explosive device hits and causes it to explode. So that the bore 12 of the body 3 and the bore 13 in the housing i always overlap, the impact body 3 is with a Groove 14 is provided into which a 'guide pin 15 engages. But others can too Means can be provided for this. So z. B. the cross-sectional shape of the bore 2 and the impact body already exclude their rotation. So that the sensitivity of the armed detonator does not become too large, is between the impactors 3 and 4 a locking spring 16 which pushes this slightly apart is mounted.

In the direction perpendicular to the movement of the impact body 3 and 4 engages between these two a locking member. z. B. one provided with a flange 17 cup-shaped hollow cylinder 18 which is pushed outwards under the pressure of a spring 19 stands; in this cup 18 holds a locking pin 2o to the bottom, which is also to the outside is under the pressure of a spring 21 and that by a head 22 with a pull-out, fork-shaped pin 23 is held. The cylinder 18 can also be replaced by another, fully formed locking body, whereby then the inner end of the locking pin 20 against the facing surface of this Body bumps. It can also be the suspension --i of the locking pin 20 between its be arranged inner end and the bottom of the cup 18.

The detonator housing i has a flat cylinder space z4 above the transverse bore 2, into which the pin 1 8 protrudes somewhat and which is dimensioned so that the plug 1 8 can be pushed outwards by the pressure of the Federig at least as far after the blockage has been lifted, that its lower end no longer grasps between the impactors 3 and 4.

In this cavity 24, which is closed by a screwed-on cover 28, the control element for locking and releasing the locking of the igniter is mounted. This control element consists essentially of a segment 25 (FIGS. I and 3) which is fixedly arranged on a shaft 27 mounted in two circular disks 26 (plates). Below the control segment, a widened nose 29 is fixedly mounted on the same shaft 27, which, in the blocked position of the igniter, grips with its underside over the flange 17 of the plug 18. The control disk 25 has a toothed segment 3o which meshes with further gear wheels 31 mounted between the plates 26. The last toothed wheel 31a is in engagement with a swinging mounted climbing wheel 32, the teeth 33 of which are adapted to the tooth shape of the toothed wheel 31a, which ensures greater safety and less wear for the climbing wheel 32. The climbing wheel 32 also has a recess; in which a removable retaining pin 34 engages when the drawn-up inhibitor or the tensioned control disk 25 is inserted and thus prevents this disk 25 from swinging out. The control disk 25 and thus also the retaining lug 29 is put under tension in that a spring 37 is provided, which is guided on the one hand on the lower plate on the pin 35 and on the other hand around the bearing shaft 27 and engages a pin 36 of the control segment 25, which is tensioned when the control disk 25 assumes the position according to Fit-, .3.

The effect of the percussion fuse is as follows: In the blocked position of the igniter, the tensioned control segment 25 lies with a cam 38 against the locking pin to. Below this cam 38 the widened nose 29 is above the flange 17 of the clip 18. If the bomb is now dropped or the hand grenade is withdrawn, so the detonator head 22 jumps with the locking pin 2o by pulling out the pin 23 due to the action of the spring - i outwards, with which the control segment 25 is released and swing out in the direction of arrow 39 under tension of the spring 37 can. So that the control segment 25 is not immediately due to the tensioned spring 37 swings through, is the escapement consisting of the gears 3 i and the steering wheel 32 coupled to the control disk 25, through its training and transmission ratios the oscillation time of the disc 25 can be chosen arbitrarily. With the now inhibited Swinging out of the control segment 25 strokes the widened nose 29 accordingly the oscillation time over the flange 17 of the pre-connector 18 until the latter is released. At this moment, the locking body 18 is i by the spring g pressed outwards, and its edge 17 lies in a through hole 4o of the upper one Board 26. So that the linch pin 18 is released at all under the action of the spring 1g can be, the control segment 25 is provided with a groove 41, the radius of which is equal to or greater than that of the flange 17. So it gets through this recess 4i the pin 18 is released for a moment in which he can jump up. In the next moment, the control segment 25 lies down again with its nose 42 behind the flange 17 of the pin 18 and thus keeps it out of locking. This means that the detonator is sharp and can be used when the bomb or hand grenade hits Get in touch.

In the case of hand grenades, the oscillation time of the control segment 25 is as follows chosen so that the previous throwing technique does not need to be changed, d. H. the The detonator is only armed after a certain period of time after it has been released. So it does not apply Thrower a hand grenade immediately after the trigger, this cannot cause any damage. - because at this moment the detonator is not yet armed. Even careless ones Handling does not cause the detonator to respond. The same is true for bombs Case, the z. B. be dropped in association from an aircraft. There is also for the aircraft after the drop, if the bombs collide, none Danger.

The fact that the pin 18 by the control segment 25 out of locking is held, the detonator can also respond if the explosive device hits the The detonator side hits because the lock 18 cannot reengage.

Claims (3)

PATENT APPLICATION: i. All-round impact fuze, especially for hand grenades, in which the ignition takes place by means of inertia bodies which can be slid on inclined surfaces and actuate the firing pin, between which a spring-loaded locking pin grips, which is again blocked by a safety device held by a locking pin, characterized in that via the end flange (17) of the spring-loaded pin (i8) engages a lug (29) which can be swung out and which is coupled in a known manner to a clockwork and whose swinging is prevented by a control segment (25) connected to the lug (29), which is attached to the pin (23) secured, sprung locking pin (2o) pressing against the spring cotter pin (18). 2. igniter according to claim i, characterized in that that the control segment (25) has a cam (38) lying above the nose (29), the in the locked position against the spring cotter pin (20), and one in the direction of rotation groove (4i) located behind the cam, which is released by the nose (29) Spring cotter (i 8) lets through, and a second cam (42) behind the groove (41), which lies under the end flange (i7) of the spring cotter (i8). 3. Detonator according to claim i and 2, characterized in that the ignition needle (7) and the Inertia bodies (3, 4) carrying primer caps (6) into a continuous transverse bore of the detonator housing (i) are pushed in from both ends, which can be pushed open by a Ring (t i) is closed.