DE3436934C1 - Method and device for producing a hollow charge - Google Patents

Abstract

In the case of a completely assembled hollow charge, a cavity (9) is provided between the main charge (3) and the transfer charge (4). The cavity (9) is evacuated and filled with a fluid, curable compound (14) which, after curing, forms the inert body for guidance of the detonation wave. <IMAGE>

Description

All liquid, curable materials are used as the filling compound in question, provided they cure does not affect the Main and / or transfer charge lead and they one dem in the hardened state Explosives have the corresponding coefficient of thermal expansion, so in particular the materials already known for the inert bodies for detonation wave guidance, such as polyurethane foam, silicone rubber or glass foam, d. H. from the smallest borosilicate Glass spheres and a curable binder consisting of foam, such as him in DE-PS 29 45 478 is described.

It can be seen that tolerance problems, especially the problem the formation of assembly gaps between the inert body for detonation wave guidance and the main and carrier charge surrounding it by the method according to the invention are switched off as well as those caused by an excess of the inert body Problems, d. H. in the method according to the invention, relatively large tolerances can be used in the production of the recess in the main and / or transfer charge be taken.

The inventive method thus allows a more rational and nevertheless more precise production of a shaped charge. In addition, when the hardening Filling mass of the inert body for detonation wave guidance with the main charge or Transfer charge is connected, which additionally counteracts the formation of a gap will.

At the same time, the method according to the invention is for introducing the inert body for detonation wave guidance in the loaded shaped charge warhead largely form- and independent of geometry. That means, for example, inert bodies can also be used Detonation wave steering in a recess in the shaped charge or the transfer charge are produced that have undercuts.

Below is an embodiment of the apparatus for implementation the method according to the invention explained in more detail with reference to the drawing. Show in it each schematically: F i g. 1 shows a longitudinal section through the device and a Shaped charge when evacuating the cavity for the inert body for detonation wave guidance; and F i g. 2 one of the F i g. 1 corresponding longitudinal section through the device, but when filling the cavity with filling compound.

According to FIG. 1, the shaped charge consists of a shell 1, a funnel-shaped one Lining 2, a main charge 3, a transfer charge 4 and a cover plate 5 at the end facing away from the lining 2.

The shaped charge is fully assembled, i.e. H. the lining 2 and the cover plate 5 are in a known manner, for. B. by threaded rings, not shown braced against each other. Furthermore, the main charge 3 and the transfer charge 4 glued together at their contact surface 6. By the opposite, Recesses 7 and 8 coaxial to the longitudinal axis of the load in the main load 3 and the transfer charge 4, a cavity 9 is formed into which a channel or - a Bore 10 opens, which extends through the tip of the lining 2 in the longitudinal axis extends through the main charge 3. In the bore 10 a supply line 11 is in Arranged in the form of a cannula. The bore 10 is outwardly through a to Tip of the liner 2 complementary conical sealing piece 12 made of elastic Material sealed through which the supply line 11 extends.

The supply line 11 leads into a container 13, the with a liquid, curable filling compound 14 is filled.

The supply line 11 has at its arranged in the container 13 End of a sealing piece 15 with an outer cone. One with the sealing piece 15 on the supply line 11 cooperating sealing piece 16 with complementary inner cone is arranged at the end of a suction line 17, which also enters the container 13 protrudes.

The suction line 17 is connected to a vacuum source, for example a pump, connected. Furthermore, the suction line 17 is with the in the container 13 projecting end to the sealing piece 15 on the supply line 11 in the container 13 slidably mounted in a sleeve 18 and provided with a closing valve 19.

With sealing pieces 15 and 16 in the sealing position and open closing valve 19 according to FIG. 1 the cavity 9 is evacuated. To the evacuation, the closing valve 19 is closed and the end of the suction line 17 downward away from the end of the supply line 11 and thus the sealing pieces 15 and 16 moved apart (FIG. 2), whereby 9 filling compound due to the negative pressure in the cavity 14 flows out of the container 13 into the cavity 9 until it is completely filled with filler material 14 is filled. The shaped charge is then removed from the supply line 11 and the mass 14 between the main charge 3 and the transfer charge 4 is for example in the upside down state, that is, allowed to harden with the cover plate 5 facing downwards.

It can be seen that the inventive method z. B. with the device described above is very easy to automate.

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Claims (7)

Claims: 1. A method for producing a hollow charge which brought the liner, the main charge and the transfer charge into the envelope and are fixed and in the main charge and / or the transfer charge one for The recess provided for receiving an inert body remains free, characterized in that that the main and transfer charges (3, 4) are connected airtight to one another, a channel (10) extending concentrically to the longitudinal axis of the shaped charge between the recess (9) and the outside of the shaped charge created via the channel (10) the recess (9) evacuated, a liquid, hardenable filling compound (14) into the evacuated recess (9) introduced and the filling compound (14) is cured. 2. The method according to claim 1, characterized in that the channel (10) is created through the top of the liner (2). 3. The method according to claim 1 or 2, characterized in that for airtight connection, the main charge (3) and the transfer charge (4) with one another be glued. 4. The method according to any one of the preceding claims, characterized in, that as a liquid, curable filling compound a liquid, curable plastic compound liquid, curable plastic foam or a glass foam is used. 5. Device for performing the method according to one of the preceding Claims, characterized by a supply line (11) opening into the channel (10) and a container (13) connected to the supply line (11) for receiving the liquid, curable filling compound (14), wherein the supply line (11) of the filling compound (14) in the container (13) can be separated by a valve and connected to a suction line (17) is. 6. Apparatus according to claim 5, characterized in that one end the suction line (17) is arranged in the container (13) and to form the valve, with which the feed line (11) can be separated from the filling compound (14) in the container (13) is, a device (sealing pieces 15 and 16) is provided with which the in the container (13) arranged end of the suction line (17) with that on the container (13) connected end of the supply line (11) can be connected, the two Ends of the suction line (17) and the supply line (11) in the container (13) from each other are designed to be movable away. 7. Apparatus according to claim 6, characterized in that the im Container (13) arranged end of the suction line (17) to that arranged in the container (13) The end of the supply line (11) is designed to be displaceable. The invention relates to a method of making a Shaped charge according to the preamble of claim 1 and a device for implementation of the procedure. In the case of shaped charges, it is difficult to manufacture in such a way that that consistently high performance is always guaranteed. It has shown, that even slight asymmetries of the individual charge parts with respect to the longitudinal axis the load noticeably affect the performance. Great efforts will therefore be made undertaken to achieve a high degree of accuracy in the manufacture of the individual parts reach. This high degree of accuracy and the associated high level of production technology Expenditure also applies in particular to the hollow charge or the transfer charge recess to be worked in for the inert body for detonation wave guidance as well as for the inert body itself. Nevertheless, assembly gaps can influence the performance occur around the inert body or cracks can form in the transfer charge, that in the case of an excess of the inert body through from the inert body to the transfer charge acting forces are caused. The invention as set out in the claims therefore lies the task of specifying a method and a device suitable for it, with the one with regard to the inert body for detonation wave guidance as well as the recess receiving it or recesses in the main charge or the degree of accuracy to be observed for the transformer charging and thus the Manufacturing costs of the shaped charge is significantly reduced. In the method according to the invention, the main charge is used as usual and if necessary the transfer charge incorporated a recess for the inert body, so, for example, screwed in or pressed. Then the lining becomes the bulk charge, the transfer charge and generally a cover plate with initiator charge placed in the envelope and braced against each other, d. H. the shaped charge is fully assembled. The main charge and the transfer charge are connected to one another in an airtight manner, preferably glued. In contrast to the well-known fully assembled shaped charge, the Recess for receiving the inert body, however, a cavity between the transfer charge and the main charge. This cavity is then machined a channel formed in the form of a bore. However, this channel can also be through a corresponding pin-shaped insert already when pouring the main and / or transfer charge be formed or in some other way. The channel extends concentrically to the longitudinal axis of the shaped charge, preferably from the top of the liner. The arrangement of the The symmetry of the detonation wave becomes the channel concentric to the longitudinal axis of the shaped charge unaffected and exits by the extension from the liner tip does not result in a significant reduction in performance. Then the through the recess between the main and transformer charge created cavity is applied a vacuum over the channel, with a line, which leads, for example, to a suction pump. The creation of a sufficient vacuum The main and transfer charges are glued to one another in the cavity opposite. The line is then disconnected from the suction pump and it is connected to this or another line a liquid, hardenable filling compound over the channel given into the evacuated cavity between the main and transfer charges, whereby the filling compound after hardening the inert body for the detonation deflection formed of the shaped charge.