NO147045B - EXERCISE DEVICE FOR USE BY THE ROCKET WEAPON. - Google Patents

Description

Among the modern rocket weapons, light rocket systems or close-in anti-armor weapons consisting of a rocket and a rocket launcher have also been developed. The rocket launcher, such as can consist of two tube-like parts which are mutually telescopically displaceable, can serve both as packaging and as a launch tube for the rocket. Such weapons are intended to be carried and operated by one or a couple of soldiers, e.g. ordinary infantrymen.

For training with such rocket weapons, special aids or training devices are needed which make it possible to avoid the use of sharp ammunition, i.e. sharp rockets, during training and practice. This is not only due to safety reasons, but also has purely economic reasons, as the rocket itself is rather expensive. Practical use-only training devices have not previously been found that have enabled effective training with such weapons in a realistic, safe and economical way. The present invention aims to provide a training device which compensates for this deficiency.

In this connection, reference can be made to Norwegian patent no. 141.00 5, which relates to a device for a practice sleeve for recoil

free cannon for anti-tank grenades, explosive grenades, etc., whose normal ammunition comprises a case fitted with a fuze cap. The patent document is about using a simulator cartridge, e.g. in the form of a plastic sleeve that retracts radially into the practice sleeve containing an explosive charge that produces flame, smoke and smoke similar to what you get when firing real grenades from recoilless weapons.

Like the present invention, Norwegian patent 141,005 presupposes the use of the weapon's ordinary ignition mechanism. However, what is involved here are weapons of such a significantly different construction and mode of operation that the previously known solution is in no way suitable for the types of rocket weapons in question here.

More specifically, the invention thus aims to provide a training device for use with rocket weapons of the type intended for single use and which comprises a rear tubular part, in the interior of which the rocket is placed and on the upper side of which (in the firing position) it is arranged a firing mechanism with a chamber for receiving a firing charge with a firing cap adapted to be actuated by a firing piston.

The new and distinctive feature of the practice device according to the invention consists primarily in the fact that it comprises a lighter set-like part provided with a normal lighter cap and arranged to fit into the chamber, that a relatively rigid, tubular connection part goes from the lighter set-like part to a container part which thereby communicates with the firing cap, that the container part contains an explosive charge and when placing the practice device in the rocket weapon is arranged to be located within the rear end of the tube part, and eccentrically displaced in the direction towards the ignition mechanism, and that the explosive charge in the container part has essentially the same dam in the forward direction and in the backward direction in the pipe section.

The practice device proposed here implies that a simple and cheap means has been achieved which is very realistic with regard to sound, smoke and back flame as well as forward flame during practice firing with rocket launchers of the type in question here. When using the invention, it is not necessary to make any modifications or interventions in the weapon itself, and firing the training device does not cause any adverse stress or damage to any part of the weapon. Although such weapons are therefore normally intended for one-time use, i.e. that the launch tube with associated parts and mechanisms is thrown away when the rocket is launched, this invention allows practice with one and the same launch tube an unlimited number of times. Of course, this also means financial savings.

Further distinctive features of an exercise device specified here and other advantages achieved by this will be apparent from the following description and patent claims.

The drawing shows:

fig. 1 a cross-section through an embodiment of the training device the ning, and

fig. 2 a simplified drawing of the rocket weapon seen from the rear with the training device inserted in place and some parts of the weapon's mechanism removed for a clearer illustration.

The training device in fig. 1 can be said to consist of three main parts, namely a detonator-like part 11, a connecting part 13 and a container part 15 which contains an explosive charge 16.

The ignition set-like part 11 is designed with a cavity 23 adapted to accommodate a normal ignition cap 12, the cavity 23 at the bottom communicating with a through channel 21 in the connecting part 13 so that. the sticking flame from the firing cap 12, when it is removed, can exit through the channel 21. The arrangement of the firing cap 12 as well as the external shape and dimensions of the part 11 are adapted to the chamber 3 (see fig. 2) in the weapon's firing mechanism 2. The firing cap 12 will thus during firing be set off with the weapon's ignition mechanism 2 in a similar way as when firing a real rocket.

The parts 11 and 13 can advantageously, as shown in fig. 1, be made as an integral part, produced e.g. by injection molding a plastic material. At the outer end of the connecting part 13, this is joined to the container part 15, e.g. by a glue bond. The container part 15 can be cylindrical as shown in the drawing, with the cylinder axis perpendicular to the connecting part 13. The container part 15 is arranged to receive an explosive charge 16, as a plug 18 closes the end of the container 15 which is opposite the bottom part 17. The dimensions and shape of the bottom 17 and the plug 18 is chosen so that with the explosive charge 16 used, essentially equal damming is achieved in the two opposite axial directions of the cylindrical container 15, i.e. in the forward direction and in the backward direction in the weapon when the training device is placed in this.

At the end of the channel 21 which opens into the container 15, a blocking device is shown in the form of a ball 22 of combustible Styrofoam material, which is destroyed by the flame from the igniter cap 12 when this is removed. The function of this blocking device is to prevent some of the explosive charge 16 from escaping through the channel 21

to the ignition set-like part 11.

With the design of the training device shown, the connecting part 13, which must be relatively rigid, when the training device is placed in the weapon, as illustrated in fig. 2, ensure that the container with the explosive charge 16 is placed in an appropriate position in the weapon. As can be seen from fig. 2, the container 15 will be somewhat eccentrically displaced in the direction of the ignition mechanism 2 within the cross-section of the tubular part 1 which is part of the launch tube of the rocket weapon itself. This leads to a favorable distribution of the stresses on the weapon during firing. The ignition mechanism 2 sits on the upper side of the tube part 1 when the weapon is seen in firing position, and is located near the rear end of the tube part 1. Consequently, the container part 15 will be held slightly inside the rear end of the tube 1 when the training device is inserted into the weapon. As further appears from fig. 2, a part of the tube part 1 around the ignition mechanism"2 is provided with a reinforcement 4, which can for example consist of a plate-like construction that joins the outer surface of the tube 1.

It is clear that different types of explosives can be used in the explosive charge 16, but it is preferred to use an aluminum explosive containing, among other things, barium nitrate, preferably approx. 20% aluminium, approx. 30% saltpetre, approx. 30% barium nitrate and the rest sulfur. More specifically, a practical mixture of this aluminum explosive has been found suitable with the following composition: 22% aluminium, 32% saltpetre, 32% barium nitrate and 14% sulphur.

Claims (6)

1. Training device for use with rocket weapons of the type intended for single use and which comprises a rear tubular part (1) in the interior of which the rocket is placed and on the upper side of which (in firing position) an ignition mechanism (2) is arranged with a chamber (3) for receiving a primer set with one primer cap arranged to be affected by a primer piston, characterized in that the training device consists of a primer set-like part (11) provided with a regular primer cap (12) and arranged to fit into the chamber (3), that a relatively rigid, tubular connecting part (13) goes from the igniter set-like part (11) to a container part (15) which thereby communicates with the igniter cap (12), that the container part (15) contains an explosive charge (16 ) and when placing the practice device in the rocket weapon is designed to be located within the rear end of the tube part (1), and eccentrically displaced in the direction of the ignition mechanism (2), and that the explosive charge (16) in the container part (15) has essentially equal predamn ing in the forward direction and in the backward direction in the tube part (1). 2. Device according to claim 1, characterized in that at the end of the connecting part (13) which is closest to the container part (15) there is arranged a blocking member (22) which prevents some of the explosive charge (16) from penetrating to the detonator-like part (11), and which is designed to be destroyed by the flame from the igniter cap (12) when this is removed. 3. Device according to claim 2, characterized in that the blocking member has the form of a ball (22) of combustible Styrofoam material. 4. Device according to claim 1, 2 or 3, characterized in that the container part (15) is cylindrical and in the mounted position of the device lies with its axis parallel to the axis in the pipe part (1). 5. Device according to one of the preceding claims, characterized in that the explosive charge (16) comprises an aluminum explosive containing i.a. barium nitrate, preferably approx. 20% aluminium, approx. 30% saltpetre, approx. 30% barium nitrate and the rest sulfur. 6. Device according to claim 5, characterized in that the aluminum explosive consists of 22% aluminum, 32% saltpetre, 32 . % barium nitrate and 14% sulphur.