DE702511C - All-round opening fuse for drop bombs - Google Patents

Description

Omnidirectional impact fuse for drop bombs The invention relates to on an all-round detonator for drop bombs, in which between the detonator of the double cone unit .a bolt released by a propeller grasps.

Omnidirectional impact detonator for bombs rides two into each other Slidable detonators that are located on conical, curved or inclined surfaces create are known. It is also known to secure the detonator by: a The wind propeller screwed into the detonator housing and unscrewing can be picked up. There are also known locks of fuse striker, which by rotation the bomb around the longitudinal axis and -the thus designed as a swivel plate Locking acting centrifugal force can be unlocked. In the invention there is a rotation the bomb around. the longitudinal axis does not exist, and the unlocking takes place through a wind propeller, so that the aforementioned locks for the inventive Training are not usable. There are also drop bombs riding two impact fuses known.

According to the invention it is now proposed that the pivotable Safety latch is designed with two arms and between the two inertial bodies Parallel lying double: cone aggregate holds and on its shaft a double-armed The spring-loaded lever sits against one of the screw-out shaft of the wind propeller retained pivot lever is applied. The two percussion fuses are, therefore, through this one Training locked and unlocked in a particularly simple manner, the unlocking only through the use of a propeller indirectly coupled to the bolt can take place after a certain fall path of the bomb. This poses a threat to the Airplane, e.g. B. by bombing and possible bumping together the Bombs, which can trigger the detonator, are avoided.

Two spring-loaded needles are already known for drop bombs, which are released by a propeller when a certain speed is reached and pierce a wall between two chambers, so that then water from one Chamber can enter the reaction substance of the other chamber. The ignition took place here, however, not due to the spring-loaded needles lying parallel to one another, but by special ignition mechanisms when the bomb hits.

In the drawing is an embodiment of the invention Detonator shown, namely: Fig. I a vertical section through the Detonator according to line 1-I of FIG. 2.

Fig.2 and 3 two cross sections along the lines II-II and III-III of Fig. I.

Fig..l a vertical partial section through a second embodiment of the detonator. The all-round impact fuse according to FIGS. 1 to 3 has a housing i, in which in the lower part the double-cone detonators and in the upper part the for Unlocking necessary parts are housed. The well-known double-cone detonators each consist of a piston-shaped needle pin 2, which at the inner end with the Firing needle 3 are provided and at the outer reinforced end a curved or inclined Have surface, which in turn against a curved or inclined surface of the plate .l, which is held by the screw ring 5 or the like. is present. The needle bolts 2 with the firing needle 3 are in a cylindrical grooved bolt sleeve 6 with the primer cap ; guided. and at the outer end of the sleeve 6 is a pierced one. Primer retaining screw 8 provided, the bore of which serves as a flame hole. The retaining screw 8 has an outside curved or inclined surface. which on the curved or inclined surface of the hole in the housing i. The telescoping parts 2 and 6 are by a Locking spring io held apart so that the ignition needle 3 does not go into the Primer 7 can pierce. The cylindrical grooved bolt sleeves 6 have transverse bores g, in order not to let air compression occur on the inside during the impact.

The two inertia parts are located in two holes i i des Housing i, from which the two flame holes 12 to the ignition charge or delay charge being able to lead.

A double-armed lever 13, which is fixed to a shaft 1q., Which through the plate q. passes through, and a plate bar 15 o. The like. Is connected. At the moment of unlocking, a spring 16 rotates the lever 13 around its pivot point 17 until it comes to rest against the stop pin 18. The plate latch 15, which can also be shaped differently, engages in the locking position on the one hand under the head ends of the curved or inclined needle bolts 2 and on the other hand sits on the upper edge of the grooved bolt sleeves 6, so that a displacement of the parts 2 and 6 against each other is not possible and thus piercing of the ignition needle 3 into the primer 7 is excluded. The lever i3 rests with its short arm against a second lever 20 with the pivot point 21. The lever 20 is bent upwards and runs out into an eyelet 22 or fork into which a threaded spindle 23 protrudes. This threaded spindle 23 is screwed through a threaded hole in the cover 2q., Which is held by a threaded ring 25, and a wind wheel 26 or the like is fixedly arranged on it outside the igniter housing i at the outer end, which rotates through the air passing by is moved.

In order to obtain a larger starting torque for the threaded spindle, a centrifugal clutch is switched between the wind turbine and the spindle and the unlocking time adjust the angle of attack of the blades by means of a special device change the wind turbine (not shown). You can also install a reduction gear extend the safety path or by installing a drive, which after unscrewing the threaded spindle is set in motion, a constant backup time in each case obtain.

The mode of operation of the detonator is as follows: After the bomb has been dropped, the air sweeps through the blades of the wind turbine 26 and sets it in rotation. As a result, the threaded spindle 23 is unscrewed from the igniter, and at the moment when the threaded spindle 23 has left the upper edge of the eyelet 22 of the lever 20, the lever 13 is pivoted by means of the spring 16 up to the stop pin 18, the lever 2o through the short arm i9 of the lever 13 clockwise (Fig. 2) is taken until the end of the lever is free. Now since the latch 15 is 14 connected to the shaft with the spring-loaded lever 13, so also pivots the bolt 1 5 at or around 9o °, and takes an end position 27 a in which it is perpendicular to the line connecting the two needle bolt. 2 This enables the movement of parts 2 and 6 in the direction of one another, and when the bomb hits, the ignition needles 3 can pierce the primers 7. If one wants to allow the bomb to explode only with a delay after the impact, but also at the same time maintain the possibility of an immediate explosion upon impact, the branches according to FIG. Q. from the flame holes of the retaining screws 8 for the primer caps 7 in the detonator housing, two ignition channels i2a and 12b each. These channels 12a and 12b are interrupted by a slide 28, which has two openings 29, which, depending on the position of the slide 28 placed from the outside by any handle, either communicate with the two channels i2a (ignition on impact) or with the two channels Cover I2b (ignition with delay). A delay set 3o is arranged in the ignition channels I 2b, so that when the slide openings 29 are covered by the channels 12b and closed channels 1 - a, when the bomb hits the flame of the primer 7, the fuel charges 30 are ignited first , depending on the burning time of these sentences 3o, the detonator of the bomb is brought to ignite.

Claims (3)

PATENT CLAIMS: i. Omnidirectional impact fuse for drop bombs, in which between the ignition bodies of the double cone unit by a propeller a released bolt, characterized in that the pivotable bolt (I5) is and between the inertia bodies (2, 6) of two parallel double cone units and on its shaft (1q.) sits a double-armed lever (I3) which held against one of the screw-out shaft (23) of the wind propeller (26) Pivot lever (2o) is applied. ° 2. igniter according to claim i, characterized in that that the bolt (I5) is plate-shaped and twistable by or about 9o ° is. 3. igniter according to claim i and 2, characterized in that the pivot lever (20) has a cranked arm with an eyelet (22) or fork at the free end through which the screwed into the igniter shaft (23) of the wind turbine (26) reaches through.