DE7708557U1 - METAL INSERT FOR CUTTING CHARGES - Google Patents

Description

Purpose:

Cutting charges are used to cut through iron plates, cables, bridge girders, etc. Cutting charges are equally symmetrical shaped charges. The cutting charges are equipped with a cavity, which gives their preferential effect unfold in the plane of symmetry. For military use mainly roof-shaped or semicircular cutting charges applied.

Cutting charges are lined shaped charges, the lining being made of an insert Inert material or of metal, preferably copper. The lining serves as an energy transmitter, since they reduce the energy of the explosive charge to a small cross section concentrated on the explosive object for a relatively long time.

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The detonation of the explosive charge deforms the lining in such a way that the lining material flows together in the plane of symmetry and from the collapse point (respective meeting point of the lining elements) the sting high kinetic energy and the bolt forms low kinetic energy. The thorn is responsible for the effect in the explosive object.

The processes can be well described by means of the hydrodynamic theory.

The main influencing variables of the cutting charge with the lining are the detonation speed and explosive density, detonation waveform, liner shape and configuration and wall thickness of the lining and, above all, the surface quality of the lining.

According to the hydrodynamic theory, the detonation drufek in the wavefront is equal to that Product of density, detonation speed and steam speed. Or the swath speed grows with the detonation speed, roughly proportional to the square of the Detonation velocity.

In terms of explosives, it is important when it comes to cutting depths in the effect of the cutting charge that one day the explosives should arrive

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has maximum compression and the metal insert is shaped so that an effective depth of cut comes about.

The knowledge of this importance is used in the hydrodynamic theory as wave detonation steering designated.

State of the art: With the acquaintances military cutting charges the lining consists of either sintered or copper material. With the copper deposits electrolytic copper with a high purity content is used. The deposits consist of Copper sheets that are manufactured in rolling processes, and where based on this process Calls cannot be avoided. Depending on the requirements, these copper sheets are bent or Pressing process to form roof-shaped or semicircular inserts.

This deformation process is not closed avoid further grooves and possibly even slight cracks or bonds on the surface the copper inlay.

The previously known deposits in cutting charges are against oxidation, which in the case of prolonged storage, especially outdoors, not protected.

Criticism of the state of the art: These copper deposits have the disadvantage that if there are scores, cracks, notches on the inserts, the length and effect of the spike

when detonating the cutting charges is not optimal. Likewise have long storage tests has shown that copper deposits, which show strong signs of oxidation, are also shown no longer achieve the original values determined in the installed state.

Furthermore, it has been shown that if the shape and thickness of the metal insert, the explosives occupancy and the optimal distance to the target object are not related, optimal cutting depths are not achieved can be. When the cutting charge detonates, the metal insert becomes so to speak turned inside out like a hat lining and shoots as a spike with the detonation speed as the reference speed of the System, increased by the flow speed of the sting, against the target object. The the Part of the metal insert facing the swath side flows into the after the collision The plane of symmetry runs in the opposite direction, i.e. from the overall system being viewed seen, with the speed behind the Sting slowly. In this case, the cut channel is followed by the slower one Stinger clogged.

Task: The aim of the innovation is to improve the

Cutting performance with cutting charges a precise To create an accurate insert using the latest findings in hollow and cutting charge research are taken into account via optimized profile shapes of metal inserts.

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In addition, these must have metal inserts
be easy, accurate and inexpensive to manufacture economically. Furthermore, these metal inserts must also be able to be mounted quickly and precisely in the cutting charge housing.

This is of particular importance because the cutting depths to be achieved are precompressed
or pre-cast high-density explosive inserts are used, which are glued homogeneously to the metal insert.

Solution g:

The object is essentially achieved in that the metal inserts in any Shape pressed or drawn, the metal insert in its highest profile point a has a different thickness than at the two ends that abut the cutting charge housing and the Both ends have a depression or elevation for precise attachment in the cutting charge housing exhibit.

Achievable advantages: The advantages achieved with the innovation exist in particular that with the cutting charges equipped with the metal insert described maximum depths of cut are achieved and these depths of cut also achieved longer storage times are guaranteed.

Description of execution:

Exemplary embodiments of the innovation are shown in the drawing and are described below described in more detail.

It shows

Fig. 1 shows a cutting charge with a semicircle

shaped metal insert.

2 shows a cutting charge with a roof-shaped

Metal insert that is rounded at the apex.

Big. 3 a metal insert for a cutter

charge that is sharp-edged at the apex.

4 shows a metal insert for cutting charges

which is curved.

Are the metal inserts in the form described and shown made of almost pure copper (Electrolytic copper) produced, it is necessary to add the copper insert with additions from others Alloy metals, e.g. bismuth, as these admixtures cause the copper to age and prevents crystal formation in the copper structure will. Aged pure copper, without the addition of bismuth, for example, works adversely affect the detonation of the cutting charge after a certain period of time Depth of cut.

In Fig. 1, 1 shows the metal insert, 2 the pre-tested, pre-cast or cast-in explosive insert, 3 the cutting charge housing.

In FIg. 2 shows 4 the metal insert that is attached to the cone angle is rounded, 5 the explosive insert, 6 the cutting charge housing.

Fig. 3 shows a roof-shaped, 'm cone angle pointed metal insert, which is pressed or drawn. _7th

4 shows a curved metal insert which is rounded at the apex 8 is and extends downward, for example in the form of a sinusoidal curve 9, thick-walled.

Numeral 10 shows a recessed groove, numeral 11 a protruding groove, with the grooves serve for easy insertion into the cutting charge housing.

The type of metal insert for cutting charges described is a lining comes about, which technically corresponds to today's latest findings in hollow and cutting charge research and is also economically easy to manufacture.

Claims (3)

No. 016,6 HAGENLJK bf CO. GmbH Kirchstr. 27 5750 Menden 2 - Lendringsen Metal insert for cutting charges Protection claims. ** 1. Metal insert for cutting charges, characterized in that the metal inserts (1, 4, 7 and 12) are pressed or drawn in any shape. 2. Metal insert for cutting charges according to claim 1, characterized in that that the metal inserts (1, 4) in their highest profile point (7, 8) a have a different thickness than at the ends (9) which rest on the cutting charge housing (3, 6), 3. Metal insert for cutting charges, according to claims 1 and 2, characterized characterized in that the ends (9) have a recessed groove (10) or a Raised groove (11) for precise fastening in the cutting charge housing (3, 6). 7708557 oi.09.77