DE1018756B - Land mine - Google Patents

Description

GERMAN

The invention relates to an impact fuse for projectiles, in particular for dropping mines, which has one in pivotably arranged in a cavity of the detonator body and provided with a detonator cap and pin bolt Has ignition device, as well as a fuse based on the mechanical delay principle the same.

This percussion fuse is characterized according to the invention in that the unlocking by the interaction of two concentric, under the influence a spring force standing piston takes place, one of which the delay of the unlocking when Firing and the other causes the fuse to unlock the ignition device.

An exemplary embodiment of the subject matter of the invention is illustrated in the drawing.

Fig. 1 is a longitudinal section through the percussion fuse;

Fig. 2 is a cross section along the line II-II in Fig. 1 in the secured position,

Fig. 3 in focus position, and

Fig. 4 is a longitudinal section through a portion of the percussion fuse.

The body of the percussion detonator consists of three hollow parts 1, 2 and 3 screwed together. The detonator cap 1 has a cylindrical bore which serves as a guide for a piston 4 consisting of a jacket 4 and a disc 4 α attached to its front end. A piston rod 5 lying in the igniter axis is attached to the disk 4a forming the piston crown and extends into the region of the cavity of the igniter shaft 2. The piston 4, 4 a is normally secured by means of a locking ball 6 in its safety system shown in FIG. The locking ball 6 lies partly in an inner annular groove 1 α in the igniter cap 1 and partly in a hole 4 & of the piston skirt 4. The cylindrical inner surface of the skirt 4 serves as a sliding guide for an inner piston 7. The piston rod 5 extends with play through the bottom of this second piston 7, which is pressed under the influence of a compression spring 8 against the hub on the piston head 4 α, in which the piston rod 5 is attached. This compression spring 8 is supported with the rear end; mf a transverse wall 2 α in the fuse holder 12 and with the other end on a sealing disk 9 provided with a hub-like guide stub, which is loosely arranged on the piston rod 5 and under the influence of a compression spring 8 against the inside the bottom of the piston 7 is pressed. At the same time, this increases the leeway with which the piston rod 5 moves through the bottom of the piston 7.

Impact fuse for projectiles,
especially throwing mines

Applicant:
Dixi SA, Le Locle (Switzerland)

Representative: Dr.-Ing. H. Dabringhaus, patent attorney,
Düsseldorf 1, Charlottenstr. 58

Rene Leroy, Le Locle (Switzerland),
has been named as the inventor

stretches, sealed inside. The wall of the piston 7 extends in the fuse position of the igniter in Fig. 1 so far towards the fuze shaft 2 that the locking ball 6 is held captive in its locking position. In the front end of the bore of the igniter cap 1, a membrane 10 is attached, whereby in front of the piston head 4 a, a chamber 11 which is sealed off from the outside is formed.

Between the transverse wall 2 α of the fuze shaft 2 and the end of the part 3 facing it and provided with an axial fire channel 3 α, a cylindrical chamber is provided, in which a squib rocker slide 13 is arranged. Its pivot axis 13 lies outside the fuse axis, parallel to it and is formed by a pin 14 (FIGS. 2, 3 and 4) which sits with one of its two ends in part 3. The ignition pellet carrier 13 is provided with a bore 13 b running parallel to its pivot axis, the central axis of which lies on an arc of a circle struck around the pivot axis.

whose radius corresponds to the distance between the pivot axis and the fuse axis. In the secured state of the igniter, the piston rod 5, as shown in Fig. 1, engages in the bore 13b of the carrier 13, whereby the latter is held in its secured position against the action of a torsion spring 14α arranged on the pin 14. In this position, the squib 15 is outside the axial area of the fire channel 3 a, which is also covered by an end plate 16 attached to this side of the pill carrier 13, which has a hole 16 a behind the pill. In front of the squib 15, a needle bolt 17 is guided in a bore, which is normally held in its safety position by means of a transverse shear pin 18.

709,758 / 79

1 018757

The function of the detonator is as follows: When the projectile is fired, the inner piston 7 is moved against the action of the compression spring 8 towards the rear part of the detonator under the influence of persistence. This creates a vacuum in the chamber la present between the bottoms of the two pistons 7 and 4, 4 a, which, in the same way as the compression spring 8, opposes the movement of the piston 7. The loosely arranged on the piston rod 5 sealing washer 9 moves under the A flow of persistence faster than the piston 7 and moves away from this. As a result, air can penetrate into the chamber 7 α through the clearance between the bottom of the piston 7 and the piston rod 5, so that the piston 7, which is still under the effect of inertia, can move on until its bottom is over the locking ball 6 has moved out, with the result that this ball falls into space 7a . The piston 4, 4a, which has been secured up to now in the position shown in FIG. 1, is now unlocked.

At the moment when the projectile leaves the mortar barrel, the persistence ceases, so that the compression spring 8, which has meanwhile reached its maximum tension, the sealing washer 9 is again able to press against the inside of the bottom of the piston 7, whereby the central opening this latter is sealed again towards the rear. Under the action of the compression spring 8, the piston 7 is now moved forward, whereby the air in the chamber 7 a is compressed and immediately afterwards the piston 4, 4 a is also moved in the same direction, which in turn now compresses the air in the chamber 11 . Under the constant pressure of the spring 8, both pistons are displaced against the membrane, the compressed air escaping in the chambers 7a and 11 between the walls of the pistons and the bores in which they move. With the piston 4, 4a, the piston rod 5 also moves. At the moment when the piston 4, 4 a has covered its maximum stroke, the piston rod 5 is out of engagement with the bore 13 b of the fuse carrier 13, which is now under the influence of Torsion spring 14 α is pivoted about pin 14. As a result of this pivoting movement, the needle bolt 17 reaches the rear end of the piston rod 5. The detonator is now sharp. When the projectile hits the membrane 10 is depressed and the two pistons are moved back with a jerk. As a result, the piston rod 5 hits the needle bolt 17, the shear pin 18 is sheared off and the squib 15 is ignited. The projectile charge, not shown here, is then caused to explode through the fire channel 3a.

Claims (5)

Pa TENTA N S P R Ü C H E: 1. Impact detonator for projectiles, especially mines, with a in a cavity of the Orbital sander, which is pivotably arranged and provided with a needle bolt and a squib, to which a mechanical delay is assigned as a safety device, characterized in that that the unlocking by the interaction of two concentric, under the influence of one Spring force (8) standing piston (4 and 7) takes place, one of which (7) slows down the P2m> safety when firing and the other (4) causes the release of the ignition device (13). 2. igniter according to claim 1, characterized in that the outer piston (4) in a bore of the igniter body is guided and one of the bottom of the inner piston (7), which is guided in the outer has penetrating piston rod (5) which secures the fuse carrier. 3. igniter according to claim 1 or 2, characterized in that the outer piston (4) is secured by means of a locking ball (6) which is half in an annular groove (1 α) in the bore of the igniter body and half in a hole (4 b ) lies in the cylindrical jacket of the outer piston (4) and is held in its blocking position by the inner piston (7). 4. igniter according to claims 1 to 3, characterized in that the outer piston (4) in the secured State rests against a shoulder in the detonator body. 5. igniter according to claims 1 to 3, characterized in that that the piston rod (5) penetrates the bottom of the inner piston (4) with play and this clearance is counteracted by a general arrangement on the piston rod (5) and by the compression spring (8) the rear side of the piston crown pressed disc (9) is sealed. 1 sheet of drawings © 709 758/79 10.