JPS63251798A - Firing-pin fastener - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a firing pin retaining device for an automatic propellant charging detonator mounted on the breech of an automatic weapon.

BACKGROUND OF THE INVENTION In known firing pin locking devices of this type, the firing pin is held in place by a locking bolt controlled by a pressure spring. If the pressure spring is damaged or the retaining bolt is subjected to large I'l rubs, it may occur that the firing pin is only partially retained by the bolt, thus making the firing pin unstable. Additionally, the weapon may be accidentally discharged due to vibration. This unstable condition cannot be corrected by the gunner. After all, the firing pin is integrated into a self-propellant detonator mounted on the breech wedge of the artillery weapon and is movable transversely to the bore axis, thus allowing the firing pin to be Because it cannot be discovered.

The present invention aims to improve the firing pin clasp device so that on the opening stroke, before the firing position is reached, the maximum latching position of the firing pin is ensured by the clasp bolt.

[Means to solve the problem]

According to the invention, there is provided a firing pin clasp for a self-propellant charging detonator mounted on the breech wedge of an artillery weapon, which is movable in a direction transverse to the bore axis. That is, it has a spring-accommodating retaining bolt for retaining the firing pin, which retaining bolt is coupled by mutual engagement with a rocking lever having a rocking lever bar for release of the firing pin; The swinging lever is mounted with a lever arm in the locking bolt on one side of the pivot and another lever arm in the swinging lever rod on the other side of the pivot, so that the movement of the locking bolt and the locking The movement of the lever bar takes place in the opposite direction, and the lever arm, which is mounted in the locking bolt by the force of the spring for locking purposes, is in a position rotated in the direction of rotation in the direction of the firing pin, so that the locking bolt reaches its maximum amplitude. To ensure that the firing pin is engaged in the firing pin, the swing lever arm of the swing lever has an extension that extends beyond the attachment point of the lever arm in the swing lever bar to ensure that the firing pin is engaged. It is configured as a type of implant device, so that during each opening movement of the breech wedge, the retaining bolt slides on a sliding surface provided at the base of the gun weapon and extending in the same direction. It is blocked until the other lever arm is pivoted around the pivot until it is in position.

The invention ensures that the maximum locking position of the firing pin is preferably controlled by the principle of mutual engagement. This is effected by an extension on one side of the oscillating lever necessary for releasing the firing pin, without a separate control arrangement, while in a particularly advantageous and simple way an extended oscillating lever of this kind can also be integrated into existing automatic propellant charge detonators. In the opening stroke of the breech wedge, according to the invention:
The extension of the rocking lever extends from the base end until the rocking lever is pivoted about its pivot sufficiently to ensure that said rocking lever places the locking bolt in its maximum locking position for the firing pin. contact is maintained between the parts. The extension has an inclined surface that does not lie parallel to the sliding surface of the base of the artillery weapon until the firing pin reaches its maximum locking position and that the lever moves with the self-propellant charging detonator. As a further feature, the firing pin is retained by mutual engagement and not by a pressure spring provided in the retaining bolt, since it does not leave a position parallel to the sliding surface during sliding.

According to a further advantageous structural feature, the rocking lever is configured as a toggle lever, the ramp being provided on the outer side of one of the guts, so that the rocking lever bar releases the firing pin for self-propellant charge detonation. The position it occupies in the device can be left unchanged and the sloped surface can be used as a stable contact surface of sufficient area without being subject to wear.

〔Example〕

The invention will be explained in more detail with reference to structural embodiments shown by way of example in the drawings.

FIG. 1 shows the arrangement at the rear end of the artillery weapon 1.

The device is preferably an integral part of a large-caliber artillery weapon, such as the weapon according to DE 2362131. Base 19 attached to the rear end of the artillery weapon 1
A breech wedge 2 is provided, which wedge 2 is opened and closed in a known manner in a direction transverse to the axis 3 of the barrel, thereby loading and unloading the filling chamber 26. The breech wedge 2 is an insert 2 of known type.
7.28, these axes lie on the extended bore axis 3 when the breech wedge 2 is closed. These inserts help support the backing ring and
and serves as a receiver for the propellant charge detonator required for detonation of the ammunition within the charge chamber 26.

The backing ring, propellant charge detonator, and ammunition are not essential to the invention and therefore will not be illustrated and described in detail.

On the rear side of the breech wedge 2, a self-propellant charging detonator 4 is provided, which detonator 4 is for example European patent (EP) 01032 accommodating a propellant charging detonator.
In order to insert the propellant-filled detonator into the detonator carrier 30, which has a magazine as known from publication no.
This detonator 4 is a West German patent (DE) 23621.
It can be moved in conjunction with the opening and closing movement of the breech wedge 2 in the manner described in Japanese Patent No. 31.

For the detonation of the propellant-filled detonator in the detonator carrier 30, the automatic propellant-filled detonator 4 has a firing pin system as shown in FIG. 2 in the area marked ■ in FIG. . A retaining bolt 5 is provided for retaining the firing pin 6.

The retaining bolt 5 is moved in a direction transverse to the direction of movement 29 of the firing pin 6 by means of a pressure spring 7 in an already known manner in order to retain the firing pin 6. To release the firing pin 6, the retaining bolt 5 is connected by interengagement via a swing lever 8 to a swing lever bar 9 of a firing mechanism (details not shown) (FIG. 3). As shown in FIG. 3, the swinging lever 8 has one lever arm 12 inside the locking bolt 5 on one side of the pivot 11 and the other on the inside of the swinging lever bar 9 on the other side of the pivot 11. It has a lever arm 13 and is supported. The movement of the retaining bolt 5 and the rocking lever bar 9 takes place in opposite directions, for example when the rocking lever bar 9 is moved upwards in direction 31 for the release stroke, the retaining bolt 5 moves downwardly in the direction 32. Moved. In order to lock the firing pin 6 in the locking position 10, the locking bolt 5 and the swinging lever arm 9 must be moved in opposite directions. In order to obtain the locking position 10, the firing pin 6 has a West German patent (DE).
The firing pin spring 35 is moved in the direction 36 by the movement of the tension cam 33 and the roller 34 disclosed in Japanese Patent No. 2,362,131.
is pulled back sufficiently against the force of , so that the retaining surface 38 of the retaining bolt 5 can be engaged after the retaining turn 39 of the firing pin 6 .

In the conventional manner, the only means for moving the retaining bolt 5 in the direction 40 in the retaining position 10 of the firing pin 6 is the spring 7
, which again results in the disadvantages mentioned at the beginning.

According to the invention, as shown in FIG. , has an extension 16. This extension 16
The lever bar 9 extends beyond the support system 15 with the lever arm 13 (FIG. 5) and is configured as an entrainment device and is therefore designed as follows.

That is, during each opening movement of the breech wedge, this extension, by mutual engagement, locks the gun weapon until the other lever arm is moved in a direction around the pivot and the locking bolt is in the maximum locking position of the firing pin. prevent any sliding movement on sliding surfaces provided at the base of and extending in the same direction.

The extension 16 of the swinging lever arm 13 is provided with an inclined surface 20 on the side opposite the sliding surface 18 of the base 19, which slope allows the swinging lever 8 to rotate in the direction of rotation 14. until the locking bolt 5 is moved to the maximum locking position.
The position 21 is parallel to the sliding surface 18 of the base 19, and is not at a distance 22. The sliding surface 18 extends on the inside of the base 19 parallel to the path of the self-propellant charging detonator 4, so that the inclined surface 20 can slide on the sliding surface 18 and adjust the locking position of the firing pin 6. 10 can be reliably controlled by mutual engagement.

Swinging lever 8 different from the maximum fastening position 10 of the fastening bolt 5
In each position, the inclined surface 2o assumes a different position with respect to the sliding surface 18, so that the tip 23 formed by the inclined surface 20 has an automatic propellant filling in the opening direction 17 in the region of the sliding surface 18. During the movement of the detonator 4, the rocking lever 8 is rotated in the direction of rotation 14 by the contact of the sliding surface 18 with the tip 23, and the sliding surface is rotated until the fastening bolt is in the maximum fastening position. This prevents upper sliding from occurring.

This allows a conventional swinging lever 8 without an extension.
For example, as shown in FIG. During movement of the propellant charge detonator 4 or for other reasons it becomes dislodged.

Position "b-" in FIG. 4 shows the swinging lever 8 in a position where the locking bolt 5 has been rotated by the swinging lever bar 9 and is out of the locking position 10. In this position, the firing pin 6 is in the cartridge container. A propellant-filled detonator placed in the 3o can be detonated.The inclined surface 20 of the rocking lever 8
First of all, the stroke j of the breech wedge 2 is longer and it is separated from the sliding surface 18 of the base 19 by a shorter distance a.

Preservation of the locking position 10 is primarily ensured in the area "a" until release of the firing pin 6 is intended, by full support of the locking surface 38 and the locking surface 39 with the help of the force of the spring 7 of the locking screw. Ru.

FIG. 6 clarifies the structure of the swing lever 8 as a toggle lever. The extension 16 provided on the lever arm 13 forms a leg 24 pointing in the direction of the sliding surface 18 of the base 19 . This leg portion 24 allows the inclined surface 20 of the swing lever 8 to
can, for example, be made into a strong structure with a large area without changing the position or method of movement of the swinging lever bar 9 inside the base 19.

[Brief explanation of drawings]

Figure 1 shows a side view of the base of the artillery weapon with the wedge of the breech and the self-propellant charging detonator; 3 shows a perspective view of the known firing pin locking device according to FIG. 2; FIG. 4 shows a sectional view along IV-IV of FIG. 1; FIG. The firing pin retaining bolt is shown, in position "a" the firing pin is retained, in position "b' the firing pin is retained and unretracted, and the automatic propellant charge detonator in the charge position "a" of FIG. Figure 6 shows the state in which there is no coordination with ■ in Figure 4.
A cross-sectional view according to −■ shows the arrangement of the swing lever. ■... Artillery weapon, 2... Breech wedge, 3... Cannon shaft, 4... Automatic propellant charging detonator, 5... Retaining bolt, 6... Firing pin, 7...・Pressure spring,
8... Swinging lever, 9... Swinging lever bar, 11... Pivot, 12, 13... Lever arm, 16... Extension part, 18... Sliding surface,
19... Base, 20... Inclined surface. Below is gold self

Claims (1)

[Scope of Claims] 1. A firing pin retaining device for a self-propellant charging detonator mounted on the breech wedge of an artillery weapon, which is movable in a direction transverse to the bore axis, the firing pin retaining device being movable in a direction transverse to the bore axis; has a retaining bolt accommodating a spring for the
For the release of the firing pin, it is connected by mutual engagement with a rocking lever having a rocking lever bar, said rocking lever having a lever arm in a retaining bolt on one side of the pivot and a lever arm in the retaining bolt on the other side of the pivot. is mounted with another lever arm in said swinging lever bar, so that the movement of the clamping bolt and the movement of the clamping lever bar occur in opposite directions; The oscillating lever arm of the oscillating lever is in a rotated position in the direction of rotation in the direction of the firing pin, and the oscillating lever arm of the oscillating lever is in a rotated position in the direction of rotation in the direction of the firing pin, and the oscillating lever arm of the oscillating lever , this extension extends beyond the lever arm attachment in the swinging lever bar and is configured as a form of entrainment device, so that on each opening movement of the breech wedge, the base of the artillery weapon is sliding on sliding surfaces provided in and extending in the same direction until the other lever arm is pivoted about the pivot until the retaining bolt is in the maximum retaining position of the firing pin.
Firing pin clasp device blocked. 2. (a) The extension of the swinging lever arm is provided with an inclined surface on the side opposite to the sliding surface of the base, and (b) when the swinging lever is rotated in the rotational direction, the locking bolt is tightened. (c) When the swing lever is at any position different from the maximum tightening position of the bolt, the inclined surface is at a predetermined distance parallel to the sliding surface of the base. The tip, which is in a different position from the sliding surface and formed by the inclined surface in this process, during the movement in the opening direction of the self-propellant charging detonator in the area of the sliding surface, when the rocking lever The firing pin retaining device according to claim 1, wherein the firing pin retaining device is rotated in the rotational direction by contact between the sliding surface and the position, and is allowed to slide on the sliding surface only when the retaining bolt is at the maximum retaining position. . 3. The firing pin clasp device according to claim 1 or 2, wherein the rocking lever is configured as a toggle lever, and the extension of the toggle lever forms a leg whose outer surface facing the base is configured as an inclined surface. .