NO317173B1 - Ammunition fires - Google Patents

Description

The invention relates to an impact fire tube for ammunition as stated in the introduction to patent claim 1.

An already used impact fire hose has a centrifugal safety device in the form of a weight-loaded leaf spring. This centrifugal fuse engages in a serration on the rotor and during transport and loading of the ammunition in the weapon will prevent an unintentionally secured rotor with detonator from swinging into the armed position.

When using the ammunition, it cannot be ruled out that the centrifugal fuse is permanently deformed by side-directed impacts, so that it no longer engages the rotor's teeth.

US-4 464 991 describes a securing element with inertia bolts and centrifugal securing. This patent discloses a centrifugal fuse locking position which is held in engagement with the rotor teeth by means of an inertia bolt.

It is therefore a purpose of the invention to ensure the functionality of the fire pipe also in connection with side-directed impacts.

This is achieved according to the invention with an impact fire pipe as stated in claim 1.

Advantageous further developments of the invention are indicated in the non-independent patent claims 2 and 3.

According to the invention, it is ensured that the centrifugal fuse in its fuse position is kept in engagement with the rotor teeth by means of an inertia bolt. Thereby, it is ensured that the centrifugal fuse will remain in engagement with the rotor teeth even in the case of side-directed impacts and, furthermore, cannot be subjected to any stresses that could cause permanent deformation of the centrifugal fuse.

During normal operation of the fire pipe, the inertia bolt proposed according to the invention will work simultaneously with the other inertia bolts arranged in the fire pipe. The projectile's rotation will therefore cause the centrifugal fuse to swing out radially and enable the time-delayed swing-in of the detonator to the armed position.

The design of the new inertia bolt in the same way as the inertia bolts otherwise present in the fire pipe provides a cost-effective solution. In addition, the advantage is also achieved that the release of the centrifugal fuse, as a result of the equal mass ratios, occurs at the same time as the action of the other inertia bolts.

An embodiment of the invention is shown in the drawing, where

Fig. 1 shows a fire hose with impact function seen in cross-section and in secured position,

fig. 2 shows a section H-n in fig. 1, and

fig. 3 shows a section IH-III in fig. 1, in perspective view.

The impact fire tube 1, shown only schematically, has a housing 2 and a cover plate 3 that can be screwed together with an associated igniter 4.

In storages not shown in detail, a rotor 10 with a detonator 11, a toothing 12, a brake mechanism 15, a centrifugal fuse 14 and inertia bolts 16,17 are stored or arranged in the housing 2.

The centrifugal safety device 14 consists of a leaf spring 26 attached at 25 with a catch 27 and a weight 28 arranged on the catch 27.

The equal inertia bolts 16,17 have a respective cylindrical shaft 18 and a head 19.

Both the shaft 18 and the head 19 are stored in corresponding bores 20 in the housing 2. Springs 22 are frictionally mounted in additional bores 21 in housing 2. These springs hold the inertia bolts 16,17 in the securing position with their deformable tongues 23.

The inertia bolt 16 rests against the weight 28 with its shaft 18. The inertia bolt 17 secures the rotor 10 with its shaft 18, as the bolt rests against a cam 29 on the rotor 10.

When using the fire tube 1, or a projectile, not shown, provided with the fire tube 1, it will be ensured that the centrifugal safety device 14 does not swing out in the direction of the arrow 30 in the event of an impact in the direction of the arrow 30, with the associated risk of permanent deformation which could result in the latch 27 no longer engages with the rotor's toothing 12. With the inertia bolt 16, this safety is achieved.

Only upon firing and rotation of the projectile will the inertial bolts 16,17 displace in the direction of arrow 31 as a result of mass inertia. The springs 22 will hold the inertia bolts 16,17 in the secured position 32. As a result of the centrifugal forces acting on the fire tube 1, the centrifugal fuse 14 will swing out in the direction of the arrow 30 so that the rotor 10 driven by the centrifugal force - delayed by the braking mechanism 15 - will swing the detonator 11 to armed position 8.

When the fire tube 1 hits, the rotor 10 with the detonator 11 will be driven towards the igniter 4 as a result of the inertial forces and thus start the ignition.

Claims (3)

1. Impact firing tube for ammunition with fuse elements for a rotor with detonator pivotable to armed position, where a centrifugal fuse designed as a leaf spring with a weight engages in a serration on the rotor, and where the inertia bolt (16), which is equipped with a head (19) and a shaft (18), is held by means of an element both in the securing position and also in the unsecured position, characterized in that the element is a star spring (22) which is concentrically arranged in relation to the inertia bolt (16), and which in the securing position holds the head ( 19) of the inertia bolt (16) by means of the malleable tongues (23), and which in the secured position grips behind the head (19) with the articulated tongues (23). 2. Impact fire pipe according to claim 1, characterized in that the inertia bolt (16) in the securing position rests against the weight (28) and the latch (27). 3. Impact fire pipe according to claim 1, characterized in that the inertia bolt (16) is designed similarly to the further inertia bolts (17) in the fire pipe (1).