DE8123395U1 - CUTTING LOAD - Google Patents

Description

) · 'P 618

Sö / Kr

Cutting charge

The invention relates to a cutting charge having a substantially Roof-shaped lining made of metal and a housing made of plastic or metal, to the ΐ pivotable feet are attached as a spacer between the cutting charge and the explosive object. |

I cutting charges are preferably in the form of cutting | attachment chains attached to civil engineering structures to be destroyed, for example I on bridges. When the cutting agent detonates, the lining is accelerated under very high pressure in the direction of the central axis of the cutting charge. This creates a cutting edge or a surface jet that is moved at high speed to the object. When Auftref- \ of the cutting edge on the explosive object fen displaces the {material and consumed thereby itself. Schnittie- I fe of the cutting charge is substantially determined by the shape, the material and the surface of the lining f both in physical as in geometrical terms influenced. The homogeneity of the explosive, the precise centering of the ignition, the explosive and the lining are other important influencing factors. The distance between the cutting charge and the explosive object also plays a role. The different possible uses of the cutting charges and the conditions of easy handling by only one person in each case inevitably led to a mass or weight limit. On the other hand, however, the modern reinforced concrete structures of today's bridges require ever larger cutting charges or completely different technologies for cutting charges.

Because of the preferred use as a cutting load chain, compliance with a weight limit for a Single charge can be achieved by shortening the charge accordingly. However, arise at the joints disruptions between the charges of a cutting charge chain, whereby the cutting performance is reduced to a not insignificant extent. Therefore, the number of joints be kept as low as possible; this means that the cargo weight is not reduced by reducing the cargo may be.

According to DE-OS 29 03 961, the cutting performance of Cutting charges are increased in that at least two superimposed with the same horizontal central axis in the direction explosive devices acting on the explosive object are used. Such cutting charges are for practical use not unproblematic because they are spaced one above the other arranged charges could only lead to optimal cutting performance if the geometric relationships Both charges match exactly and the firing sequences for the first and second explosive devices must be timed very precisely. The demands placed on the manufacture and use of such cutting charges are difficult to implement. Anyway, this does not involve an increase in the explosive charge, where- J is limited by the cutting performance from the start.

Based on the state of the art and the requirements it is the object of the invention to provide a cutting charge to create the type described above, which has a significant increase in cutting performance and all Conditions of application and easy handling by only one person met.

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This object is achieved in that the Cutting charge at least two separable explosive charges which are tightly connected to one another. In the plane of separation between the explosive devices a layer of an inert material can be arranged. This will work in an optimal way at a given Charge length split the cutting charge into two or more parts, making handling for weight reasons nothing stands in the way. The individual, separate parts can easily be mounted on the explosive object by just one person. The division does not cause a decrease in the required cutting performance.

The inventive designs and developments of this The basic ideas of the invention are explained and highlighted below with the aid of exemplary embodiments.

Examples of the invention are shown in the drawings. They show:

Fig. 1 shows the structure of a cutting charge according to the invention in schematic perspective representation,

2 shows a cutting charge according to the invention in half section,

3 shows a side view of the cutting charge according to FIG. 2,

4 shows the assembly of the cutting charge on an * explosive object in a simplified representation.

The cutting charge has a housing 1 to which feet 2 are attached as spacers. The angular or roof-shaped lining 3 of the cutting charge consists of metal, preferably copper or steel. Within of the housing 1, the explosive charge 4 is used, wherein

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in the upper part there is an inert body 5 for the detonation wave steering. Due to the inert body in the upper part of the explosive charge, the detonation waves hit the lining almost perpendicularly.
5

In an embodiment according to the invention, the cutting charge can now have explosive charge bodies divided into different planes.
A division in the vertical axis 6 leads in an advantageous manner to two explosive charges 7 and 8 with absolute mass equality.

A division in the horizontal axis 9 above the lining 3 offers the advantage of simple attachment of the individual explosive charges 7a and 8a on the explosive object.

A division in the angled axis 10 at the point of the scheltel 11 of the lining 3 offers the advantage of easy handling and attachment to the explosive object Advantage of the same dimensions and therefore the same weights. A division along the inside 12 of the lining 3 the armpit3 brings advantages in that the division the explosive charge itself is omitted. Because of the relatively heavy metal lining, this solution allows for equal mass cutting charge upper parts and lower parts can be realized.

The parts of the explosive charges separated by sectional planes are preferably tightly connected to one another by clamping elements or snap fasteners, with between the explosive charge body a layer of plastic or metal can be used.

By adding a layer of metal, for example copper or steel, to the plane of separation of the upper explosive charges the advantage is achieved of getting two cutting charges of different sizes. Separate use should

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rather cutting charges are easily possible. Appropriately In this case, pivotable feet are also used as spacers for the upper explosive charge body 7b assigned.

In Fig. 2, the cutting charge according to the invention is in section shown. The charge 4 is enclosed by the housing 1. The angled parting plane creates a upper explosive charge body part 7b and a lower explosive charge body part 8b. In the upper part is the inert body 5. Between the separated parts of the explosive charge body 7b and 8b, a layer 14 made of metal is inserted. The liner 3 is located on the lower part of the explosive charge 8b. On the housing 1 pivotable feet 2 are also arranged to the cutting charge in the corresponding To be able to easily attach distance to the explosive object. The feet swiveled to another position 2 are drawn at 16. The upper, hood-shaped part of the explosive charge body 7b is placed on the lower part and firmly connected to this by snap locks 17, so that there are no air cushions in the plane of separation form. When the upper part of the explosive device is ignited 7b, the detonation waves propagate through the metal layer 14 onto the lower part of the explosive body 8b.

As shown in FIG. 4, the cutting charge according to the invention does not present any problems with the attachment the cargo. First, in the example shown, the lower part of the explosive charge body 7b with the feet 2 on Explosive object 18 attached. Then the upper part of the explosive charge body 8b is placed on the lower part and attached to this with the snap locks 17. This type of cutting charge means that considerably larger explosive charges can be used than before, resulting in a leads to a greater increase in cutting performance with good handling at the same time.

summary

The cutting charge has an angular or roof-shaped lining made of metal and a surrounding the explosive charge Housing made of metal or plastic, on the swiveling feet for the spacing of the cutting charge are provided on the explosive object. The explosive device is divided into at least two, preferably equal parts, which take up a layer of inert material in their parting plane. Both parts of the explosive device are tightly connected to each other by snap locks or clamping elements tied together.

(Fig. 1)

Claims (1)

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- 6 - Protection claims ! Cutting charge with a substantially roof-shaped ι Lining made of metal and one made of plastic or 3 10 Metal-formed housing, attached to the swiveling stand i ' feet as a spacer for the cutting charge to the » Explosive object attached and elements for the Koppe I. several cutting charges are provided, 15th characterized, that at least two separable explosive charges body (7, 8) which can be tightly connected to one another, 2. in the plane of separation between the explosive charge ^ 20th body (7, 8) a layer (14) made of an inert one Have material. Cutting charge according to claim 1, 3. characterized, \
I. 25th that the plane of separation is in the vertical central axis ϊ (6) of the explosive charge (4) runs. Cutting charge according to claim 1, 4th characterized, that the parting plane is in a horizontal axis (9) I. runs above the lining (3). Cutting charge according to claim 1, characterized, a that the parting plane is in a vertex (11) I.
I. the lining (3) angled axis (10) runs. I.
I. ... 7 1
I. 5. cutting charge according to claim 1, characterized in that the parting plane on the inside (12) of the lining (3) runs along an axis (13) parallel to it. 6 .. cutting charge according to claims 1 to 5, characterized in that that the divided explosive charge bodies (7, 8) have the same or almost the same masses. 7. cutting charge according to claims 1 to 6, characterized in that that a plastic is used as the layer (14). 15th 8. cutting charge according to claims 1 to 6, characterized in that that a metal is used as layer (14). 9. Cutting charge according to one or more of the preceding claims,
characterized in that an inert body (5) is inserted in one, preferably the upper part of the explosive charge body (7a). 25th 10. Cutting charge according to one or more of the preceding claims,
characterized in that the divided explosive charge bodies (7, 8) can be tightly connected to one another by snap locks or the like (15).