DE1183409B - Dismantling fuses for twist projectiles with front pipe safety - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: F 071

German KL: 72 i- 1/01

Number: 1183 409

File number: R 366371 c / 72 i

Filing date: November 23, 1963

Opening day: December 10, 1964

The invention relates to a detonator fuse for swirl projectiles with front pipe safety.

A decomposer fuse for swirl projectiles has already become known, which is made with the help of centrifugal force Bodies is controllable for the purpose of initiating the ignition process. Here is at axially displaceable A firing needle that blocks the firing needle movement in the safety position and is radially displaceable Slider is provided, behind which on the bottom of one in a detonator insert at an angle arranged outwardly inclined channel a secured by a spring-influenced flybolt ball is, which in the unlocked state by penetration from the channel into a slide hole, a shift in the center of gravity of the slide and thus causes the ignition needle to be released.

With this known arrangement one after the end of the projectile acceleration only the The ball subject to centrifugal force is responsible for the rising of the ball and the subsequent unlocking movement of the slide requires a certain period of time, which ensures the safety of the upstream pipe target. This upstream pipe safety, which is usually only a few meters, is not always the case does justice to the demands placed on the tactical use of the weapon, the Use of such detonators, for example, in a wooded area, in which the field of fire by distance has not been properly cleaned of twigs, leaves and the like.

A detonator mechanism has become known that has a long front pipe safety Duration of action. This improved pre-pipe safety device is made possible by two successive The first is the locking and release of an axially movable in the detonator, under the action of a feed force takes over the intermediate link, which in turn takes over the second, the firing needle-securing tape roll affects. There besides the two ribbon wraps other fleeing pieces that work together with them, such as balls or segments, are provided overall a complicated and expensive detonator mechanism. Instead of the two tape wraps according to another proposal, a single roll of different widths is to be used Find. Apart from the fact that such a winding because of its different bandwidth is cumbersome and can only be produced from the full board with loss of material, should be in view of the space required to pull out the roll is a roll with a total thickness of two

Cutting fuse for swirl projectiles with pre-pipe safety

Applicant:

Rheinmetall G. mb H.,
Düsseldorf, Ulmenstr. 125

Named as inventor:
Dipl.-Math. Franz Schaadt,
Fritz Berger, Düsseldorf

...

Individual coils can hardly be accommodated inside the detonator.

The invention is based on the object of creating a detonator which has the aforementioned disadvantages do not adhere and the except for the safety of storage, handling and transport and one Self-dismantling after a certain flight time also guarantees a significantly improved pre-pipe safety. This detonator is said to be the following known and proven and tried and tested in their known arrangement Have elements, so ζ. Β. one axially displaceable firing needle and one radially displaceable, the firing needle movement in the locking position locking slide, behind the one on the bottom one in one Ignition body insert obliquely outwardly inclined channel a ball secured by a centrifugal bolt is arranged, which in the unlocked state by penetrating from the channel into a slide bore causes a shift in the center of gravity of the slide and thus the release of the ignition needle.

According to the invention, the object is achieved in that the ball interacts with a roll of tape known per se in such a way that the ball can only be released after the roll of tape has pulled out. According to a preferred embodiment of the invention, the centrifugal bolt securing the ball in a manner known per se is in turn secured by a tape roll. The tape roll can be wrapped around the primer insert containing the ball at the same height with a small distance and thereby cover the outer opening of a hole receiving the flybolt.
When fired, the bullet is initially held at the bottom of the channel for the duration of the projectile acceleration, as are all the axially movable fuse parts during the passage through

409 757/19

the gun barrel remain in its original position. After the projectile has stopped accelerating, d. H. at the muzzle, cause the occurring as a result of the beginning of the projectile twist Centrifugal forces pull out the tape roll, causing the fly bolts to follow and release the ball can. Only now does the ball, subject to centrifugal force, run up in the channel and enter a slide hole. This changes the center of gravity of the slide. The slide with the ball swings and releases the ignition needle. These two chronologically successive processes that only occur at the muzzle take their beginning, offer the guarantee for an extraordinarily improved safety of the pre-pipe. In addition, the detonator can be kept almost unchanged in its construction, where it is only supplemented by the tape roll. But this means that the well-known and proven Due to the significantly improved safety of the front pipe, the detonator fully meets the high tactical requirements will. The amazingly simple construction of this detonator enables it to be used with large calibres Bullets as well as bullets with small calibers, both in terms of its function as well as in relation to the cost ratio to the projectile body.

Further details and advantages of the invention emerge from the description and an on Hand of the drawing explained in more detail embodiment, namely shows

F i g. 1 a splitting fuse with improved pipe safety in the blocked position in longitudinal section,

F i g. 2 shows a detonator in cross section according to the one shown in FIG. 1 shown line H-II,

F i g. 3 shows an igniter in cross section according to the one shown in FIG. 1 shown line HI-III,

F i g. 4 shows a detonator in longitudinal section, as shown in Fig. 1, but with the detonating needle unlocked,

F i g. 5 shows an igniter in cross section according to the one shown in FIG. 4 shown line V-V and

F i g. 6 shows a detonator in cross section according to the one shown in FIG. 4 shown line VI-VI.

The detonator shown consists of two main assemblies, namely the self-destruct system and the assembly containing the front pipe fuse.

The self-destruct system is located in the detonator head 1, the pipe fuse on the other hand in the igniter body !. The self-destruct system known per se consists of the sleeve 3 with the ball running surface, the ball carrier 4 with the balls 5 and the spring 6. These parts surround the firing needle 7, which in turn with the one in the tip immediately in front of the membrane 8 seated ram plate 9 is connected.

The pre-pipe fuse consists essentially of one with a clearance on both sides in the detonator body 2 arranged slide 10, which sits on a primer insert 11. The slider 10 serves, as is known, to secure the ignition needle 7, which for this purpose is in a locked position against the slide 10 abutting stop 12 is provided. The slide 10 has a slide bore 13 whose axis is parallel to the longitudinal axis of the detonator.

Under the slide bore 13 in the igniter insert 11 there is a located opposite the longitudinal axis of the igniter channel 14 which is inclined outwardly by a small amount and which receives the ball 15.

So that the slide 10 can be displaced radially with respect to the ignition needle 7, it also has a bore 16. Finally, as is known per se, the slide 10 is surrounded by a band spring 21, S which fixes it in the blocking position. In conjunction with the outer band spring 21, the slide 10 is held by the two opposing pins 22 and the ignition needle 7 is thereby secured.
The igniter body insert 11 is provided at its end facing the igniter body 2 with a shoulder 11 σ formed by turning off the circumferential surface, over which an easily rotatable liner 17 is pushed. At one point on the circumference of the liner 17 there is a bore into which the correspondingly convex end of a tape roll 18 is pressed and held in place by the successive winding layers. The tape roll 18 has a slight bias, which gives it the formation of a compact spring package

ao enables. The wall of the detonator body 1 which is adjacent to the outer winding diameter is withdrawn so far that the inner winding diameter of the tape roll 18 which is opened when it is executed can be greater than the outer diameter of the closed winding. The ball 15 resting at the bottom of the channel 14 is secured by a flybolt 19, which in turn completely fills a bore 20 made in the shoulder 11 α of the igniter insert 11. The centrifugal bolt 19 has approximately the length of a radius of the paragraph Ua. It is arranged with the bore 20 perpendicular to the longitudinal axis of the fuse and runs from the circumferential surface of the shoulder 11 α secantially and ends in the channel 14. To protect the Baadwickeis 18, which is made of very thin spring steel, the centrifugal bolt 19 is made of a material of low specific weight, preferably a plastic whose mass, which is enlarged by the centrifugal force and which presses against the tape roll 18 from the inside, must not be so large that this causes deformations of the tape roll that impair or even question its escape.

The mode of operation of the detonator is as follows: The safety of storage, handling and transport is thereby ensured that the slide 10 by the pins 22 and this in turn by the Band spring 21 are held, whereby any axial displacement of the ignition needle 7 is impossible.

The significantly improved upstream pipe security, which of course includes pipe security is due to the fact that initially under the effect of the projectile acceleration "occurring when firing all axially movable fuse parts during the passage through the gun barrel Remain in the locking position shown in FIG. 1. Only the centrifugal forces occurring in the beginning of the projectile twist cause the Ribbon spring 21 with subsequent disengagement of the pins 22 from the slide 10, whereby although the transport lock canceled, but the further security is guaranteed, since during the projectile acceleration the slide 10 presses against the ignition needle 7. After the acceleration has stopped at the The mouth of the pipe widens, as shown in FIG. 5 shows the ribbon spring 21 taking along the pins 22 even more, while in the decomposition system, the balls 5 can flee radially outward, where they over the cone of the Sleeve 3 the ball carrier 4 against the prestressed

Press the spring 6 so that a certain amount of space is formed between the stop 12 of the fuse needle 7 and the slide 10. Also at the pipe mouth, where only centrifugal forces act on the detonator parts, the tape roll 18 also begins to pull out. Since the latter does not sit directly on the igniter insert 11, but on the liner 17, which is slightly rotatable with respect to the shoulder 11 α, the roll of tape 18 experiences a uniform and therefore trouble-free unwinding due to the inherent rotation of the liner 17. Only at the end of this process, when the spherical end piece of the tape roll is no longer pressed against the recess of the liner 17 by a winding layer above, does the tape roll 18 detach itself from the cylinder liner 17. By completely pulling out the tape roll 18 against the inner surface of the detonator body 2, the flybolt 19 is able to follow the tape roll 18 outward so far that it, as in particular FIG. 6 clearly shows that the release of the ball 15 in the channel 14 is effected. The thus unlocked ball 15 runs up under the action of centrifugal force in the channel 14 and from there enters the slide bore 13 which is covered for this purpose. The center of gravity of the slide 10 changes. If the detonator hits the target object, the membrane 8 is pressed in and the detonator (not shown) and thus the explosive charge surrounding it detonated via the plunger plate 9 by means of the detonating needle tip 7.

In the dismantling system, under the influence of centrifugal force, the balls 5 that have run up hold on to one another Section of the trajectory the pretensioned spring 6. However, if in the further course of the projectile flight the centrifugal force has reached a certain minimum size, which is smaller than the force of the spring 6, so is the latter is able to let the firing needle 7 snap forward towards the detonator via the ball carrier 4, so as to cause the bullet to self-destruct at a predetermined point on the trajectory.

This detonator is extremely simple in structure and functionally reliable, and in addition to its versatility as a Impact and splitting fuses are now also equipped with a significantly improved safety pipe is, thus fulfills all the essential requirements that are to be placed on a detonator.

Claims (8)

Patent claims: 1. Dismantling fuse for swirl projectiles with pre-pipe safety with axially displaceable ignition needle and a radially displaceable slide that blocks the ignition needle movement in the safety position, behind the one sloping outward in a detonator insert at the bottom Channel a secured by a spring-influenced fly bolt ball is arranged in the In the unlocked state, a shift in the center of gravity is caused by penetration from the channel into a slide hole causes the slide and thus a release of the ignition needle, characterized by the Cooperation between the ball (15) and a tape roll (18) known per se, in such a way that the ball (15) can only be released after the tape roll (18) has pulled out. 2. Detonator according to claim 1, characterized in that the in a known manner Ball (15) securing centrifugal bolt (19) is in turn secured by the tape roll (18). 3. igniter according to claim 1 and 2, characterized in that the tape roll (18) around the the igniter insert (11) receiving the ball (15) is placed around a short distance away and while the outer opening of a hole (20) receiving the centrifugal bolt (19) is covered. 4. igniter according to claim 1 to 3, characterized in that the FliehboLzen (19) in the igniter insert (11) is arranged perpendicular to the longitudinal axis of the igniter and from the circumferential surface of the igniter insert (11) secantially into the interior of the channel (14) runs. 5. igniter according to claim 1 to 4, characterized in that that the flybolt (19) made of a material of low specific weight, for. B. made of plastic. 6. igniter according to claim 1 to 5, characterized in that the tape roll (18) through a bushing (17) lying close to the igniter insert (11) is guided on its flange the longitudinal edge of the winding facing the fuse base is supported. 7. igniter according to claim 1 to 6, characterized in that the inner end piece of the tape roll (18) with a releasable plug connection opposite the liner (17) is provided, as long as there is still a winding layer close to the Connection is located, causing the liner (17) to be entrained while after pulling out of the tape roll (18), the end piece is automatically released from the liner (17). 8. The fuse of claim 1 to 7, characterized in that the band reel (18) (a 11) is placed around a space formed by twisting off the circumferential surface of Zündkörpereinsatzes (11) paragraph, together with the tape roll (18) the diameter of the Zündkörpereinsatzes (11) not reached. Considered publications:
German interpretative document No. 1104 396. For this purpose 2 sheets of drawings 409 757/19 12.6+ 6 Bundesdruckerei Berlin