SE437884B - Estimates for a projectile - Google Patents

Description

Fig. 1 is a longitudinal section through a projectile with lighter, Fig. 2-4 is a section through the lighter along the line II-II in Fig. 1 on a larger scale and in different positions, namely: Fig. 2 the lighter in transport mode, Fig. 3 the lighter after stops with large deceleration, and Fig. 4 the lighter after stops with minor deceleration.

According to Fig. 1, the projectile has a hollow projectile body 10 which contains an explosive charge 11. Behind the explosive charge 11 is an aluminum sleeve 12, which delimits the explosive charge 11 from a lighter 13. Behind this aluminum sleeve 12 is an annular steel plate 14, which is inserted into the projectile body. 10 with games. An amplifier charge 15 extends in the aluminum sleeve 12 and through the steel plate 14, which is attached to the front end of the lighter 13.

The lighter 13 is attached to the cavity of the projectile body 10 by means of a holding member 16. This holding member 16 has a first ring 17, against which the front end of the lighter 13 rests, and a second ring 18 which is attached to the projectile body 10. This second ring 18 has an outer thread and is screwed into an inner thread in the projectile body 101. both rings 17 and 18 are connected to each other via a cylindrical projection 19. The holding member 16 further has a third ring 20, against which the rear end of the lighter 13 rests, and a fourth ring 21 which is attached to the projectile body 10. The fourth ring 21 also has an outer thread and is screwed into an inner thread in the projectile body 10. Also the two rings 20 and 21 are connected to each other via a cylindrical projection 22.

There is a deformation space 23 and 24 both between the inner wall of the hollow projecting body 10 and the two projections 19 and 22 and between the two projections 19 and 21 and the igniter 13. According to Figs. 2-4, the igniter 13 has a drill a delayed ignition device. A cylindrical body 26 extends from the lower end of the bore in which it is attached to this bore 25. Its front end has a ring groove 27 extending in its entire circumference 27 "steam". 5 which is limited at the front by the inclined surface 28. A sleeve 29 movable in the bore 25 is threaded over the body 26 and rests at rest against its foot. A spring 32 is inserted between a bore ledge 23 in the sleeve 29 and the rear end of the spark plug 31.

The front end of the body 26 extends into a bore 33 in the spark plug 31. The spark plug 31 is pressed by means of securing balls 34, which are arranged in transverse bores 35 in the spark plug 31 and which are under the pressure of a spring 32 against the inclined surfaces 28 of the cylinder connected to the spark plug. risk body 26 and is held connected to it.

At the same time, the balls 34 are also pressed against the inner wall of a sleeve 36 likewise guided in the bore 25, so that this is held by the frictional force. The sleeve 36 has a bore, which has the same diameter as the bore in the front part of the sleeve 29, and abuts with an oblique end surface 37 against the end surface of the sleeve 29. The front tapered portion 38 extends behind the guideway of a runner 39. The runner 39 is displaceable in the transverse direction of the projectile shaft and has an ignition capsule 40 (Fig. 3), which with the runner 39 can be displaced from the safety position shown in Fig. 2 to the sharp position shown in Fig. 3. At the rear end of the cylindrical body 26 a disc 42 is attached by means of a securing pin 41, which is located in a recess 45 concentric with the bore 25 in the igniter body and rests forwards against a shoulder 46.

The mode of operation of the stop igniter described is as follows: Before firing the projectile, the described parts of the stop igniter assume the position shown in Fig. 2.

During the firing of the projectile is displaced due to the rotation or any other suitable device the runner 39 to the sharp position so that the spark plug 31 can abut against the spark plug 40 (Fig. 3). At the projectile stop, the two sleeves 29 and 36 are thrown despite the braking force exerted on them by the securing balls 34 through the inertia forward until the shoulder 43 of the sleeve 36 reaches abutment against the rear flange of the runner 39 (Fig. 3).

Due to this movement of the sleeve 29, the spring 32 is tightened more strongly.

When the deceleration of the projectile and thus also the deceleration of the lighter has dropped to a small value, the spring 32 can displace the sleeve 29 backwards, so that the balls 34 under the pressure from the body 26 inclined surfaces 28 from the annular groove 27 enter the space now formed between the sleeves. (Fig. 4).

The spark plug 31 is thereby thrown freely and under the influence of the spring 32 forward. The fuse bodies 34 are then guided by the inclined surface 37 of the sleeve 36 inwards in the bore 33 of the spark plug 31, so that the spark plug 31 now moves unhindered to abutment in the sleeve 36 and strikes the spark plug 40 through the bore 441 (Fig. 3).

When the deceleration at the projectile impact on the target is very large, not only the two sleeves 29 and 36, but also the cylindrical body 26, the fuse balls 34 and the spark plug 31 are thrown through the inertia forward, whereby the breaking pin 41 is cut off and the cylindrical body 26 can detached from the disc 42 and the spark plug 31 strikes the spark plug 40 (Fig. 3). swing

Claims (1)

1. V - ~ u __-_.-....... 5 L 1810081-s Patents Claim lighter for a projectile, with a detonator, which can be fitted by means of a spring-actuated spark plug and with a mechanical delay device, which has locking bodies which, in their locking position, lie partly in recesses in the spark plug and partly in recesses in a stationary igniter part, and with two coaxial inertia sleeves arranged one after the other in the ignition part, which release the locking bodies after the end of the stop deceleration. characterized in that the stationary igniter part (26) is fixed in the igniter housing via a break pin (41), whereby in the case of very large abutment decelerations the spark plug (31) connected via the locking bodies (34) to the stationary igniter part (26) strikes against the igniter (40) without delay. chromium;