DE1696660A1 - Hollow explosive charge - Google Patents

Description

PATENT LAWYERS

DR-ING. BY KREISLER DR.-ING. SCHONWALO 1696660 DR.-ING. TH. MEYER DR. FUES

COLOGNE 1, DEICHMANNHAUS

T. Mürz 1968 Sch-Sg / Ma

Dynamit Nobel Aktiengesellschaft, Troisdorf District Cologne

Hollow explosive charge

The invention relates to a rotationally symmetrical Hollow explosive charge with ring ignition, in which between the Hollow body and the axially symmetrically attached ignition initiation an inert body is provided.

In the case of rotationally symmetrical hollow explosive charges, where If the ignition device is attached in the center of one end face, the ignition is set if there is no special one Gate precautions are taken, punctiform at the ignition ' set, and from there the detonation will plant itself according to the "Distribution of the explosive charge. Man achieves a more favorable course of the ignition processes "if a sheet-like or ring-shaped ignition zone is created by initiating the ignition with an initial transmission body which is the effect of the ignition circular or ring-shaped on the main explosive charge transmits. Is located on the opposite of the ignition initiation The end face of the hollow explosive charge has an ignition initiation designed as an inner cone in the form of a

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Einlagetrioliters attached with an opening angle of about 60 ° "to 120 °, it is achieved that the Detonation waves - hit the insert at a steep angle.

To achieve an annular ignition zone, it is "known to charge between ignition initiation and explosives to arrange an inert body, which has approximately the shape of a disk, and which is made of a material with a relatively small size. The speed of sound should exist. Such a body made of metal, plastic, plaster of paris or the like delays the direct ignition in the axial direction, so that initially an ignition in the radial direction via the detour around the inert body sets in »This creates a ring-shaped Ignition distribution, and the shape of the inert body allows the angle of incidence of the detonation fronts to be influenced in a suitable manner.

In the case of hollow explosive charges of the type mentioned, it has proven difficult to manufacture them in a way that guarantees constant product quality and the same ignition properties affect ₀ for a 'uniform good education of the shaped charge jet which is also called sting is the location of the explosive charge to their serving in both the axial and radial directions of importance _β It great efforts are made to when in the production of parts and Assembly of the hollow explosive charge to achieve a high degree of accuracy. The high technical production effort as well as the particular in the division

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formed charges unavoidably high reject rate leave the known hollow explosives in many Appear unsatisfactory in terms of

The object of the invention is to provide a hollow explosive device to create, in which the detonation waves impinge on the envelope at a favorable angle, and its manufacture and final assembly can be carried out with relatively little effort. This is done according to the invention achieves that all explosives in a shell together with the inert body and the insertion funnel are compressed so that the shell encompassing the hollow explosive charge is tapered on its inside towards the initiation of ignition is offset that an existing ignition material initial transmission body with the shape of a cone shell its preferably flattened tip is connected to the initiation of ignition, and that the inert body is formed essentially as a double cone, one of which is cone of the inner surface of the cone shell and whose other cone is adapted to a conical bore in the main explosive charge, the cone axes respectively coincide with the main axis. The inert body can, if necessary, during the pressing process are held centrally in the casing by means of a device through the ignition initiation «,

Due to the conical shape of the various components, a geometrically simple and precise one is created during the press-in process Centering created in sighting the axis and at the same time achieved that surfaces of two adjacent elements each lie exactly on top of one another. The advantages of the annular Ignition distributions are used to the full and thus it is achieved that now hollow explosive charges with good ignition properties in cheaper and easier

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Way to be mass-produced can.

For design reasons it is in some cases not quite possible, the inside of the shell and the outside of the cone jacket in matching To bring forms * or it is desirable to provide a compensation option through the eventual any remaining asymmetries are eliminated. To this According to a further development of the invention, the purpose is between the conical shoulder of the sleeve and the initial transmission body a conical bottom piece arranged, the outside of which is essentially your heel and the inside of which is adapted to the initial transmission body. .

In the production of two each adapted to each other Cones are conveniently used on the tools same machine tool with the same setting of the machining devices have been manufactured »The The invention will be explained in more detail below with reference to the figures, of which

Fig. 1 shows a hollow explosive charge according to the invention and

Fig. 2 shows another embodiment in longitudinal section shows.

The hollow explosive charge according to Fig. 1 consists of a light conical shell (8), which is provided on one side with an inclined shell bottom (2) to which a cylindrical ignition initiation (6) connects. The ignition initiation serves to accommodate the igniter, which is connected to a initial transfer body (1) arranged in the sheath

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in connection stent _o The initial transfer body (1) has the 3-shape of a cone and is slightly truncated at its cone tip formed inert body (33 hugs, this can consist of metal i | unstsioff, trips or the like, and its inwardly directed cone dips into a corresponding inner cone of the main explosive charge (4)

Main explosive charge (4) in each case in the extension of the first cone of the inert body (3) «.

The sheath (8), which can be made of metal, is in the already mentioned way on the opposite of the ignition initiation Provide the side with an insert holder (5). The detonation waves are now planted from the initiation of ignition over the initial transfer body (1), bypassing the inert body (3) to the main explosive charge (4) fort «Within the body (3) they move so slowly that they are necessary to continue the detonation in arrive late in the axial direction at the main explosive charge, The detonation waves hit the insertion funnel (5) at a steep angle

Fig. 2 shows another embodiment of the invention, wherein the shell (B) up to the ignition initiation (6). easy conically tapered. As in the one already described The embodiment is the inert body (3) as a double cone trained and on the one hand by the main explosive charge (4), on the other hand, enclosed by the initial transfer body (1). The outer surface of the initial transfer body (1) does not cling to the case base (2), but rather

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' ⁶ ' -1636660

runs at a larger angle, 3> the disfiguring space is filled with a base piece (7), which is supported on the one hand on the shell - and on the other hand snuggled to the initial transmission body (1) Initial transfer body (I) -, of the inert ÄSi-pers (3 1 land de * in order to compensate any remaining asymmetries of the individual parts.

Making the same cone shapes for every two that match It can be done in a suitable manner in such a way that the tools with which the levers are made werdöni so 2üB <> 3? Ress and drawing tools the same machine tool with the same setting the Beärbeitungsvorrichtühgen are made so that see any bumps "during assembly compensate·

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Claims (1)

Expectations Rotationally symmetrical hollow charge explosive with ring ignition, an inert _# body is provided in between the hollow body and the axially symmetric mounted Zündeinleitung, characterized in that all the explosives in a sheath (8) together with the inert body (3) and the insert funnel (5) are compressed that the shell (8) comprising the hollow explosive charge at its g Inside facing the ignition lead-in (6), tapered off ™ (2) is that an initial transfer body made of primer (1) in the form of a cone jacket with its - preferably flattened - tip with the Ignition initiation (6) is in connection, and that the inert body (3) essentially as a double cone or double truncated cone is formed, one of which is a cone of the inner surface of the cone jacket (1) and of which Another cone of a conical bore in the main explosive charge (4) is adapted, the cone axes coinciding with the main axis. 2ο hollow explosive charge as claimed in claim 1 _r characterized gekennzeich- ä net that a cone-shaped bottom piece (7) is arranged between the conical section (2), the sheath (8) and the initial data transfer body (1), the outside of which substantially corresponds to the paragraph (2) and the inside of which is adapted to the initial transmission body (1). 3 · A method for producing the hollow explosive charge according to claim 1 or 2, characterized in that in each case matched cones are produced with tools that are on the same machine tool with the same setting of the processing devices have been manufactured. 109847/039? Blank page