DE246284C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to (in particular intended for bombarding airships) Projectiles with a charge that makes the trajectory visible and an explosive charge. In known projectiles of this type, a time fuse ignites the flight path after a time corresponding to its setting visualizing charge and causes a certain time after inflammation this charge is followed by the detonation of the explosive charge. The explosive charge can, however make the trajectory visible for these projectiles only after they have burned down the charge is detonated, and the time * 5 after which the detonation of the explosive charge takes place, is determined by the time it takes for the burning to make the trajectory visible Charge required. Should therefore be the one between the ignition of both charges Period have a more or less constant value, one is forced to use the charge that makes the trajectory visible to choose a fabric that burns as evenly as possible. The known substances However, these types are not very suitable for making the trajectory visible, since they are burned off produce poorly visible smoke. In addition, a cargo made from such materials may only be proportionate have a small cross-section, if they should burn almost evenly, so that the amount of smoke produced is also very small.

The invention now aims to provide a projectile that suffers from the deficiencies mentioned free is.

In the drawing, a projectile is illustrated as an embodiment of the subject matter of the invention, which contains a smoke charge intended to make the trajectory visible and is also designed as a bottom chamber shrapnel, namely Fig. 1 shows an axial longitudinal section of the projectile, Fig. 2 shows the section according to 2-2 of Fig. 1, seen from above, Fig. 3 is an axial longitudinal section of the upper part of the projectile after · 3-3 of Fig. 2, χ seen in the direction of arrow at a different setting of the igniter as in Fig. I, Fig 4 in a schematic representation the section according to 4-4 in FIGS. 1 and 4'-4 'in FIG. 2, seen from the left, and FIGS. 5 and 6 likewise in a schematic representation the section according to 5-5 in FIG and 5'-5 'of Fig. 2, seen from the left, with different settings of the detonator.

In the front part of the projectile casing A , the smoke charge E is arranged, which is separated from the shrapnel filling F by a disk G. In the parts of the projectile casing A enclosing the smoke charge E , inclined holes a ^{1 are} provided through which the smoke can escape.

The fire igniter has three set pieces K, H, J, one above the other, of which, as usual, the middle (H) is firmly connected to the igniter body M , while the upper set piece (J) and the lower (K) are rotatably arranged and through a Bridge N are coupled together. The arrangement of the detonator (not shown) that generates the pilot when the shot is fired and of the detonator to the upper sentence /

leading burn holes m ¹ is carried out in a known manner.

An incendiary charge m ³ , covered by a plate m ¹ , is pressed into the igniter plate ^{m 2} , the length of which corresponds to a certain time, for example 2 seconds. At one end of the incendiary is adjacent to a channel immediately m ^s m ^5, which leads from the end surface of the igniter plate, where it flows directly below the fire set of the set of K track for smoke charge E. The channel w ⁵ lies in one and the same axial plane with the fire holes h ¹ leading to the beginning of the incendiary composition of the fixed sentence H. From this it follows that even if the cigarette holes i ¹ , k ¹ leading to the beginning of the incendiary devices of the rotatable clauses /, K are set in the same axial plane, the ignition jet coming from the detonator of the time detonator can reach the smoke charge E directly. From the other end of the incendiary m ^s resulting in the fuse plate a covered channel m ⁶ in a radially inward direction. This opens into a channel m ¹ , which leads from the end face of the igniter plate to the impact charge P , which is connected to the shrapnel charge B through the ignition tube D.
In the same axial plane as the channel m ¹ , a channel h ^{2 is} provided in the fixed set pieces H which is completely separated from its incendiary items. In addition, a channel k ^{2 is} arranged in the lower set piece K, which is completely separated from its incendiary devices and lies in the same axial plane as the burn holes k ¹ , i ¹ . The arrangement is made here (Fig. 1, 4) that through the fire hole i ¹ and the channel k ² , if they are set in the axial plane of the channel h ² , a direct connection with this between the impact charge P leading channels m ¹ and the spaces in which the pilot jet is produced.

If the detonator is set in such a way that the shrapnel charge B is to be ignited after more than 2 seconds, the rotatable clauses /, K assume the position according to FIG. 6 with respect to the fixed clauses H and the igniter plate m ^z. The ignition jet that arises when the projectile is fired then passes through the fire hole i ¹ and ignites the incendiary element of the sentence /, which sets the fire through the burn hole h ¹ , the incendiary element of the sentence element H , the burn hole k ¹ , the incendiary element of the sentence element K and the channel m ⁵ passes on to the smoke charge. At the same time as the smoke charge is ignited, the incendiary charge m ^{3 is} ignited, and only after it has burned down (in the example assumed after 2 seconds from the ignition of the smoke charge) does the pilot jet arrive on the path m ^e , m ' ', P, D to shrapnel charge B and detonates it. If the sentence pieces are given a setting at a distance other than in FIG. 6 before the shot, then, as FIG Ignition of the smoke charge remains the same up to the explosion of the shrapnel charge, since always after ignition of the smoke charge the incendiary charge m ^3, which has a certain burning time, has to burn before the ignition jet can reach the shrapnel charge. If the igniter has in particular the position according to FIGS. 3 and 5, the ignition jet generated during firing strikes on the path m ¹ , i ¹ , h ¹ , k ¹ , m ^B directly into the smoke charge E; smoke develops immediately, while the shrapnel charge explodes again 2 seconds later.

Since the smoke charge in the projectile described lies completely outside the path on which the pilot jet reaches shrapnel charge B , or in other words, since the smoke charge and the shrapnel charge are connected in parallel with respect to the time fuse, one can for the smoke charge, unhindered by considerations of even burning, choose a substance which behaves most favorably with regard to the development of a clearly visible smoke, and also make the smoke charge so large that a sufficient amount of smoke is developed.

The projectile described is particularly suitable for bombarding airships, since the smoke streak produced is essential to the assessment of the location of the detonation point in relation to the target relieved. From the position of the target in relation to the smoke streak it can also be seen that the Length of the smoke streak always corresponds to a certain, known burning time, easily estimate how much burn length has to be increased or broken off so that the The explosive point gets its most favorable location.

The arrangement of the channels h ² , k ² makes it possible that the projectile can also be fired with grappling effect in order to ward off close-range attacks. If these channels were missing, the shrapnel filling would not have any effect at all up to a distance which corresponds to the setting of the detonator illustrated by FIGS. 3 and 5, i.e. up to a distance corresponding to a flight time of 2 seconds, which is a considerable disadvantage would mean. The arrangement of the channels h ² , k ² now ensures that when the detonator is set according to FIGS. 1 and 4, that when firing

resulting ignition jet on the way m ^l , i ^l , h ² , k ² ym ⁷ , P, D reaches the shrapnel charge B and causes it to explode, so that the projectile exerts a shrapnel effect similar to the grappling effect.

Claims (4)

Patent Claims: ίο i. Projectile with a charge that makes the trajectory visible and an explosive charge, in which a time fuse ignites the charge that makes the trajectory visible and the explosive charge is ignited a certain time after this charge has been ignited, characterized in that the explosive charge (B) and the trajectory visible charge (E) are connected in parallel with respect to the time fuse. 2. Projectile according to claim 1, characterized in that with the ignition channel (m ⁵ ), which leads to the charge (E) making the trajectory visible, an incendiary charge (m ^s ) having a certain burning time is connected to which a to the explosive charge (B) leading channel (m ⁶ , w?) connects. 3. Time fuse for projectiles according to claim ι with a shrapnel filling, characterized in that the detonator is provided with a device which makes it possible that at a certain setting of the detonator the resulting ignition jet when the shot is fired instantly to the shrapnel charge (B) leading channels (m ⁷ ) can arrive. 4. Burning igniter according to claim 3, characterized in that in the set pieces (K ) lying directly above the igniter plate (m ² ) a special channel (k ^s ) which is separated from its incendiary devices is arranged, which at a certain setting of the igniter over the channels (m ⁷ ) of the detonator body (M ) leading to the shrapnel charge ', (B) and with the same setting of the detonator with the space in which the ignition jet is generated (through the channels h ² , i ¹ , m ¹ ) , is in direct connection. 1 sheet of drawings.