NO167333B - PROJECTIL TENING DEVICE. - Google Patents

Description

The present invention relates to an ignition device for a projectile, comprising a housing containing a rotor with two ignition assemblies that have mutually different properties, intended to cooperate with a detonator, in that a firing pin mounted in a capsule that is attached to the housing is axially displaceable, for upon impact of the projectile to hit one of the fuses.

An ignition device of this type is described in French patent no. 1,204,450. In this known ignition device, the ignition sets are arranged in a central plane in the ignition device, but they have an angular distance on the rotor. The latter must thus carry out different rotations in order to bring one or the other of the igniters to the active position, which leads to a relatively complicated and expensive construction.

The invention aims to achieve the same advantages in functioning with a much simpler and thus more reliable and less expensive construction.

For this purpose, the ignition device according to the invention is characterized by the fact that the two ignition assemblies have parallel axes in a plane which is mainly parallel to the axis of rotation of the rotor, which is arranged to perform a specific angular movement to bring the ignition assemblies from a safety position to an active position, and that the firing pin is equipped with an eccentric point in relation to the axis of the ignition device, so that a rotation of the firing pin in relation to the housing enables the point to be aligned according to one or the other of the ignition sets.

The attached drawings show schematically and as an example an embodiment of an ignition device according to the invention.

Fig. 1 shows an axial section through the ignition device.

Fig. 2 shows a section along the line II-II in fig. 1.

Fig. 3 shows a section along the line III-III in fig. 1.

Fig. 4 shows a section along the line IV-IV in fig. 1.

The ignition device comprises a housing 1, on which is mounted a capsule 2 which can be rotated in relation to the housing 1. The position of the capsule 2 is maintained due to friction against the housing 1, obtained by means of a ring 3 which forms a comb, attached to the capsule and equipped with two annular transitions 4 and 5.

The part at the front of the capsule 2 carries a firing pin 6 which is pressed against a cover 7 by a spring 8. The firing pin is equipped with a tip 9 which is eccentric in relation to the longitudinal axis of the ignition device. The firing pin is designed to cooperate with one or the other of two ignition sets 10 and 11 which are held by a rotor 12, the latter being shown in fig. 1 in a safety position, in which position the two igniters are outside the path of the tip 9 of the firing pin 6. The rotor 12 is attached to a shaft 13 which can turn in a bearing 14 held by the housing 1. The ends of the shaft 13 each have a taper 15 which is located opposite a projection 16 on the ring 3 when the latter is in the securing position, determined by the angular position of the capsule 2.

The angular movement of the rotor which enables the ignition sets 10 and 11 to be brought to the active position is controlled by one device which appears in fig. 3 and 4. The device comprises an inertia arm 17 which is pivotally mounted on one of the bearings 14. The inertia arm has its center of gravity eccentric in relation to the axis of the axle 13, and is locked in the locking position, shown in fig. 3 and 4, of a latch 18 which is guided into a recess 19 in the arm, as well as into another recess 20 in the rotor 12, the latch being acted upon by a spring 21 towards the outside of the projectile, but held in position by one of the protrusions 16 on ring 3, when the latter is in the securing position. In addition, the arm 17 is exposed to the action of a pusher 22, which is activated by a spring 23 which acts against a bearing part 24 on the arm 17.

A torsion spring 25 coiled on the shaft 13 of the rotor 12 is attached with one of its ends to the arm 17 and with its other end to the shaft 13. The spring 25 is intended to cause a torque to turn the rotor 12 after the launch and to hold it in the active position, so that the tip 9 of the firing pin can hit one or the other of the igniters 10 and 11. The rotation of the rotor 12 is delayed by means of a clockwork mechanism 26 which is of conventional construction. As shown in fig. 2, this mechanism comprises a number of transmission gears 27 which cooperate with a balance 28. The mechanism acts against a toothed sector 29 which is attached to the rotor 12 and is engaged with a gear 30 in the mechanism.

As can be seen from fig. 4, the two igniters 10 and 11 are intended to ignite an amplifier charge 31, which, when the ignition device is in the armed state, is located opposite a

pyrotechnic transfer charge 32 (fig. 1) intended to ignite a detonator or booster 33. The two igniters 10 and 11 have different properties, in that the igniter 10 is intended to ignite instantaneously, while the igniter 11 is arranged to effect a delayed ignition, with a delay that is generally only a fraction of a second after impact.

The way the ignition device works is as follows:

Before loading the weapon with the projectile, the capsule 2 must be moved to cancel the transport safety and to release the protrusions 16 from the tapers 15, the capsule being turned to one of the two positions, to place the tip 9 of the firing pin 6 in line with that of the detonators 10 and 11 which corresponds to the desired mode of operation.

During the rotation of the capsule 2, the projection 16 on the ring 3 releases the latch 18, so that it performs a first part of its movement which releases the inertia arm 17 by leading it out of the recess 19.

Because of the projection 34 on the latch 18, this displacement is limited by the projection coming into contact with the arm 17, so that the end of the latch remains in the recess 20.

The acceleration to which the projectile is subjected when launched

ning displaces the pusher 22 (fig. 3) against the action of the spring 23, so that the arm 17 can rotate due to the inertial force, in a clockwise direction, as shown in fig. 3, to stretch the spring 25.

When the arm 17 has completed a turn of approximately a quarter of a turn, it is completely released from the latch 18 due to a recess 35 arranged in the arm, and in which the latch 18''

is inserted to lock the arm 17 in the armed position. The rotor 12 is thus freed and rotates due to the torque from the spring 25, and the movement is delayed by the mechanism 26. When the rotor has performed an angular movement of about a quarter of a turn, the duration of this movement being determined to provide the desired muzzle safety, it is one of the igniters 10 or 11 opposite the tip 9 of the firing pin,

while the booster charge 31 is opposite the transfer charge 32 and the detonator 33.

Claims (2)

1. Ignition device for a projectile, comprising a housing (1) containing a rotor (12) with two ignition assemblies (10, 11) having mutually different properties, intended to cooperate with a detonator (33), a firing pin (6) mounted in a capsule (2) which is attached to the housing, is axially displaceable, so that when the projectile hits one of the firing units (10, 11), characterized in that the two igniters (10, 11) have parallel axes in a plane which is essentially parallel to the axis of rotation of the rotor (12), which is arranged to perform a specific angular movement to bring the igniters (10, 11) from safety position to active position, and that the firing pin (6) is equipped with an eccentric tip (9) in relation to the axis of the ignition device, so that a rotation of the firing pin (6) in relation to the housing (1) enables the tip (9) after selection can be arranged according to one or the other of the ignition rates (10, 11). 2. Ignition device as specified in claim 1, characterized in that the capsule (2) is mounted on the housing (1) so that it can be turned on this to turn the firing pin (6).