DE316269C - - Google Patents

Description

The invention relates to the shock mouths for self-propelled torpedoes according to patent 235650, the firing pin of which is held locked by a lever connected to a When the torpedo hit, the heavy bodies set in motion due to inertia were connected is. The essential feature of the detonator according to the main patent consists in a hollow, e.g. cup-shaped heavy body, which is pressed by a damping spring against the bottom of the detonator housing and experiences a tilting movement under the effect of a lateral or axial impact, by which the detonator is triggered.

In the previous versions of the detonator, the heavy body was damped such that the sensitivity of the ignition device is uniform in all directions was. This arrangement has serious drawbacks in practice, since it is necessary when ejecting of the torpedo can never know whether the torpedo is in an axial direction towards the target will hit, and since one can also not judge whether the wounded ship is a Owns torpedo net or not. If the torpedo hits purely axially, the impact is on most violent, if it hits a net, it is that of the net cutting device caused recoil probably also axially, but less violently, and it hits the side of the Aim, then the shock is even weaker. Now the detonator should only be used in the first and last Fall, but do not go off when hitting a protective net. But this success can with a detonator that is evenly damped in all directions cannot be achieved. purpose of the present invention is to adjust the damping according to the direction of the impact in such a way that that the detonator is less sensitive to impacts that take place parallel to the torpedo axis is, however, a higher sensitivity in the case of impacts running at an angle to this having.

In the drawing are two exemplary embodiments of the subject matter of the invention. .

Fig. Ι shows in a vertical central section the ignition device in the rest position. Fig. 2 is a cross section along line AB of Fig. 1. Fig. 3 illustrates in a vertical central section the detonator at the moment of triggering in the case of a purely axial impact. FIG. 4 shows, in section along the line CD of FIG. 2, the detonator at the moment of triggering in the case of a temporal impact perpendicular to the torpedo. Fig. 5 shows

partly in section, a modified embodiment of the damping device for side impacts. Fig. 6 shows the arrangement of the ignition device in the torpedo. The ignition device is housed in a housing whose axis is approximately standard "al Lies to the torpedo axis. Which, when the torpedo hit, was affected by the Inertia moving hollow heavy body 2 is pivotably mounted around pin 3 (Fig. 2), the are screwed into a swingable ring 4. The ring 4 is on a guide cylinder 6 mounted to swing around two pins 5 which are perpendicular to the pin. This device prevents any movement of the heavy body 2 up or down, but allows him to go in any direction to tilt forward or sideways. Afterwards, see Fig. 1, the heavy body is through it determined that its upper part 7 fastened against a guide cylinder 6 Bock 8 creates.

In the normal position, the upper part of the firing pin 9 rests in a top on the heavy body 2 seated rest 10. This locks the heavy body and keeps it on for a long time prevented from moving until the torpedo has traveled a certain distance which the firing pin spring 11 is compressed and the other end of the firing pin 9 is screwed into the piston 12,. as described in more detail in the main patent. ■ Here, the upper end of the firing pin 9 comes out of the detent 10 and is the Sch who body 2 free, which can then tilt forward or to the side (Fig. 3). The process corresponds in its effect to the withdrawal of the screws 8 of the igniter according to the main patent.

That usually rests on rest 10 End of an arm 13 of an angle lever 13, 15, which is rotatably mounted about a bolt 14 in the bracket 8 on the guide cylinder 6. Of the the other arm 15 of the angle lever locks the upper end of a lever 16. The lever 16 is provided with a nose 17 which passes through an opening in the guide cylinder 6 into a groove 18 of the piston 12 engages.

As soon as the torpedo hits the body of a ship, the heavy body 2 tilts in a direction corresponding to the type of impact, so that the detent 10 leaves its rest position, and the then no longer supported angle lever 13, 15 under the action of the Nose 17 of the lever loading firing pin spring 11 in the manner shown in FIG is rotated, the nose 17 the. Piston 12 the now. for rushing the free firing pin 9 releases. "The Schwer kör per 2 is, as 60, seen from Fig. 2, cut out from the side, to make space for the lever 16.

In Fig. 3 it is assumed that the impact on impact with the torpedo is purely axial to the torpedo. Here, the heavy body 2 tilts forward around the two pins 3, while the ring 4 remains at rest. This tilting movement of the body 2 is after Invention regulated by a damping spring 19, which at the ■ lower ■ end of the detonator in a displaceable hood 20, on which an extension 21 of the heavy body 2 rests.

If, on the other hand, the impact is purely laterally 'd. H. it takes place at 90 ° to the axis of the torpedo, the heavy body 2 swings around the two pins 5 through the intermediary of the ring 4 in the guide cylinder 6 (see. Fig. 4). The ring 4 takes part in this oscillation around the pin 5 part and thereby lifts a sleeve 22, which is slidably mounted on the guide cylinder 6, on one side which is loaded by a damping spring 23. When the heavy body has a has passed through a certain angle, the detent 10 gives the arm 13 of the angle lever 13, 15 free, whereupon this snaps behind the rest and in the manner already described the Locking the lever 16 releases so that the firing pin can snap forward.

If the torpedo hits in a direction which is between the purely axial and the purely lateral direction, then the heavy body 2 will be both around the pin 3 how. rotate around the pin 5, so it becomes a forward and sideways direction at the same time Perform oscillation. For each direction in which a shock can hit the torpedo is provision is made for the detonator to be released when the shock is sufficiently strong. Against it the detonator does not work if the torpedo is only weak in any direction Receives shock, for example hits a torpedo protection net.

Instead of the springs 23, two springs 24, 25 can also be used, as shown in FIG. 5 are that rest in hoods 26 and 27, the contact pressure against the Untersei te of the body 2 they determine. In which described detonator so there is the possibility of tuning the springs 19 and 23 and 19 and 24, 25 respectively, show the relationships between the degrees of sensitivity in must exist in the lateral direction and in the longitudinal direction to regulate precisely.

Claims (3)

P ATENT claims: 1. Impact fuse for self-propelled torpedoes according to patent 235650, characterized in that that the heavy body (2) set in motion due to inertia with damping devices of different Sensitivity is provided. 2. shock fuse according to claim 1, characterized characterized in that the heavy body (2) with a lateral extension (21) on the The damping spring (19) is at rest, and the one that is swingably connected to the heavy body (2) Ring (4) by means of a sleeve (22) displaceable on the cylinder (6) under the pressure a second damping spring (2.3) is available. . 3. shock fuse according to claim 1, characterized characterized in that the heavy body (2) rests on three damping springs (19, 24, 25), of which two (24, 25) on both sides of the heavy body (2) in a transverse to Torpedo through the axis of rotation (3, 3) of the heavy body ;; walking plane lie while the third (19), the sensitivity of which is less than that of any of the two other and on which the - heavy body with a hemispherical Approach (21) is supported in the plane of the fixed axis of oscillation that extends longitudinally to the torpedo of the annular support (4) of the heavy body (axis of the pin 5). For this 1 sheet of drawings.