NO170603B - QUICK TAKE BODY CONTACT HEAD - Google Patents

Description

The present invention relates to a contact head for fast fog throwing bodies.

Fast fog launchers are launched from launch cups, i.e. so-called launch ramps to build up a fog wall in front of e.g. a vehicle to be concealed. Thereby, the vehicle has several launch ramps, from which several fog-throwing bodies can be launched at the same time.

Such fog-throwing bodies are described e.g. in DE 35 10 367 Al and EU 0157421 A 3. When firing, the fog-throwing bodies with their ignition heads rest on mandrels which are centrally arranged in the launch ramp.

Since the fog wall is thus formed by several throwing bodies, the difficulty that essentially has to be overcome is that the fog throwing bodies must fly exactly the same distance, as only in this way and in addition with the simultaneous ignition of the fog set can a quick-closing fog wall be formed.

In the case of fast fog throwing bodies according to the state of the art, unsatisfactorily large distance spreads appear, such as e.g. at 21°C (body temperature) lies up to 30 m between the longest and shortest throw.

The task which is therefore the basis of the invention is to provide a contact head for fast fog-throwing bodies with the help of which the spreading area can be limited to a considerable extent. A further task which forms the basis of the present invention is that it should improve the conditions of keeping the time difference constant between the firing of the fog body and the ignition time of the fog batch.

The solution of these tasks is achieved with a contact head for fast fog throwing bodies that can be launched from

launch ramps, with outer contact rings, to these connected bridge igniters, drive unit and delay unit, as well as outflow channels that remain free when installed against

the mandrel of the launch pad, which contact head is characterized by what appears in the requirements.

It has surprisingly been shown that the throw length spreads can be markedly reduced, which has been achieved due to improved pressure reduction in the insert. At the same time, this feature, together with the high-energy material chosen as the propellant, has a positive effect on keeping the ignition timing of the mist set constant.

The quick-mist throwing bodies thereby lie with the ignition head against the upper flattening of the launch ramp's mandrel, as the central opening is somewhat smaller in size than the flattening. The outflow channels remain free, so that the outflowing gas formed by ignition of the drive set can flush around the mandrel even while the central opening is still covered by the flattening.

From this it appears that the shape of the channels can be slits or incisions which are arranged around the central opening or also radially arranged steps which then in turn lie on the launch rampedor's flattening.

An improvement of the ignition pulses for the drive set can be achieved according to the invention if an additional ignition charge (Anfeuerung) is connected between the drive set and the delay set.

The ignition charge preferably consists of black powder and is secured against the bridge igniter and the propellant with gauze.

In order to avoid a reaction between the delay rate and fog rate, it is proposed to seal the breakthrough in the crown with a sealing disk of lead tin.

A simple construction of the ignition head according to the invention consists in that the bridge igniter and the drive set are placed in an insert and that the ignition and the delay set are arranged in a counterpart, which pieces are connected by means of a screw-on crown with

gj one breakthrough.

The placement of the moisture-sensitive pyrotechnics in the interior of the insert gives the advantage that a good sealing option is achieved. Thereby, the insert has exhaust gas bores directed towards the central opening in the ignition head, from which the propellant gases exit into the outflow channels.

The bridge igniter can be connected via vertically supplied cables to the contact rings in such a way that the cables are led via a centrally arranged bore and on the side around the insert through the contact head and be soldered together softly with the contact rings.

The propellant can, in a manner known per se, advantageously consist of material such as nitrocellulose or nitroglycerin. The degassing boreholes must be dimensioned in accordance with this so that the pressure build-up does not take place too quickly. In a particularly advantageous way, the propellant consists of nitroglycerin which has been processed into foil. Firstly, this is advantageous in terms of manufacturing technology, and secondly, the pressure-time relationships are highly reproducible, which also benefits the improvement in distance accuracy. The foil is rolled into layers, placed in a specially designed chamber, the foil thickness being approx. 0.6-0.7 mm. A ratio of approx. 1.7 g (rolled into 3 layers) of nitroglycerin foil at a throw body of approx. 2 kg.

The build-up of the propellant charge in the insert can thus advantageously take place so that the propellant set is surrounded by a sleeve on which there is a sieve which covers the propellant set and which is kept at a distance from the exhaust gas bores by means of a ring.

Furthermore, the insert can be equipped with silicone seals in all places that are accessible to humidity from the outside, the cables are sealed, e.g. when casting with epoxy resin, the insert and counterpart can be equipped with flat silicone washers, as these have respective flat sealing surfaces.

However, the counterpart can also (possibly in addition) be equipped with an O-ring seal located in an annular groove.

Finally, it is also proposed to arrange a step-shaped projection in the igniter head, which projects above the screw-on fog set or its cup, as it abuts against a counter surface formed on the cup. Thereby, this approach serves to achieve a predetermined amount of compression for a ring seal which surrounds the sleeve in a similar manner beyond the igniter head.

In the following, the invention will be explained in more detail with the help of an example shown in the drawing.

The drawing shows an igniter head 3 with a radial collar to which is joined the cup (not shown) carrying the mist kit. The contact head 3 is surrounded by a plastic ring in which the contact rings 22 are vulcanized. In the middle above there is a central opening 27 which is surrounded by four incisions 14 which are at right angles to each other.

An insert 4 is screwed into a corresponding recess, which abuts on the end side against a perforated disc 9 and a silicone seal 12. In the insert 4, a counterpart 2 is inserted which is secured by means of a screwed-on crown 5.

The counterpart 2 is shorter than the insert 4 so that a chamber is formed in its interior which accommodates the driving charge 15 and the bridge igniter 1.

The propellant charge consists of a rolled-up nitroglycerin foil and is surrounded by an equally long sleeve 6. On the sleeve 6 is a sieve 8 which is again held at a distance from the bottom of the insert via a ring 7.

The insert base has exhaust gas bores 25 outside the center and a central bore of approximately the same size, through which the connection cables for the bridge igniter 1 are routed. The cables are sealed with an epoxy resin adhesive 17; the cables are routed around

the insert of the contact rings 22.

The bridge igniter 1, the drive assembly 15 and the sleeve 6 lie on a gauze pad 21 under which the ignition charge 18 is located and which is held by this.

The ignition is located in a (cylindrical) recess from which (here two) bores 19 extend downwards, which are in connection with bores 20 lying transversely thereto and are open to the delay set 24.

The crown 5 has a central opening 26, which is sealed with a tin foil 13.

The counterpart 2 abuts with an end flange butt against the insert 4, as a silicone disc 11 may be inserted between the two parts. In addition or alternatively, the insert carries a radial annular groove in which an O-ring is located.

The following table shows the throw length spread according to the invention in relation to the state of the art. Thereby, "temperature" means the temperature measured in the launch pad directly before the launch and "spread" means the difference between the maximum and minimum achieved length.

With the additionally improved accuracy for the timing of the fog ignition, the desired fog walls appear in front of the objects to be hidden significantly faster and in a more homogeneous way.

Claims (10)

1. Contact head for rapid fog-throwing bodies that can be launched from launch ramps, with outer contact rings, to which bridge igniters, drive set and delay set are connected, as well as outflow channels (14), which remain free when touching the mandrel of the launch ramp, characterized in that the outflow channels (14) are connected with the drive assembly (15) via a common, central opening (27) and internal exhaust bores (25) which are arranged in an insert that encloses the drive assembly (15), the drive assembly (15) consisting of completely combustible material, such as nitroglycerin or nitrocellulose, on which there is a sieve (8) which covers the drive unit and which is held with a ring (7) at a distance from the exhaust bores (25). 2. Contact head according to claim 1, characterized in that channels (14) are formed by means of slots, incisions or steps. 3. Contact head according to claim 1 or 2, characterized in that an ignition charge (18) is arranged between the delay set (24) and drive set (15), respectively bridge teeth (1). 4. Contact head according to claim 3, characterized in that the ignition charge (18) is secured against the bridge igniter (1) and the drive set (15) with a gauze pad (21) and via bores (19, 20) is connected to the delay set (24) and is preferably sealed with a tin foil (13) against the mist set. 5. Contact head according to at least one of claims 1-4, characterized in that the bridge igniter (1) and the drive set (15) are placed in an insert (4) and the ignition charge (18) and delay set (24) in a counterpart (2), which pieces are connected to each other by means of a screw-on crown (5) with an opening (26). 6. Contact head according to at least one of claims 1-5, characterized in that connection cables (16) are axially led through the insert (4) and on the head side around this to the contact rings (22). 7. Contact head according to at least one of claims 1-6, characterized in that the drive assembly (15) consists of nitroglycerin processed into foil. 8. Contact head according to claim 7, characterized in that with a throwing body of approx. 2 kg is used approx. 1.7 g of foil that has been rolled into three layers. 9. Contact head according to at least one of claims 1-8, characterized in that the insert (4) is equipped with silicone seals (11, 17), that the opening (26) in the crown (5) of the delay set is sealed with a lead foil (13) and that the counterpart has an O-ring seal (23) lying against the insert (4). 10. Contact head according to at least one of claims 1-9, characterized in that the contact head (3) is screwed on in a known manner to a mist cup which has a soft elastic compression seal, the contact head being arranged with a spacer sleeve that protrudes above the contact head with a predetermined size which corresponds to the compression of the seal.