SE522180C2 - Charged with directed blasting effect that can be switched between beam-forming directed blasting action and linear directed blasting action - Google Patents

Abstract

The present invention relates to a shaped demolition charge that can be switched between a beam-like cutting jet and a line-like cutting jet. Today no charge is known which can be switched in the above-described way. Instead one demolition charge is used for each function. In order to avoid the problem of storing, transporting, and handling two different kinds of charges the invention shows a charge combining beam- and line-like cutting jet in the same charge. The desired function is easily chosen through a switch, e.g. by moving a slide or a knob. The shaped demolition charge (1) comprises a main charge (2), an ignition charge (3), a transfer charge (5, 6) connecting the ignition charge (3) with the main charge (2) in two peripheral points (25, 26) on the main charge (2), and a switch (7, 8), comprising a centre charge (9) which oculd connect the ignition charge (3) to teh centre of the main charge (2) or not.

Description

sonen 10 15 20 25 30 35 ...- '_. ,. Figures 1 and 2 show RSV charges according to the prior art. A cone charge, Figure 1, produces a beam-shaped RSV beam which can be used to provide charge hold in rock and concrete. A prism charge, Figure 2, produces a linearly distributed flat RSV beam which is used to e.g. destroy bridges and cut off beams.

Figure 3 shows a preferred embodiment of an RSV charge according to the invention.

The charge (1) comprises a main charge (2) with a conical insert (4; see Figs. 5-6), an ignition charge (3) with a hole (10) for a lighter, e.g. a pentyl tube, a transfer charge (5, 6), and a control, in Figure 3 in the form of a slide (7), comprising a center charge (9; see Figures 6 and 9). Figure 4 shows the charge from above without controls.

Figures 5 and 6 show a charge in cross section. Figure 5 shows the charge in a position where there is no connection between the ignition charge (3) and the center of the main charge (2). This prevents initiation of the main charge (2) in the center. The ignition of the main charge (2) is forced to take the path via the transfer charges (5,6) so that the main charge (2) is initiated at two peripheral points (25, 26) on the main charge (2) which leads to linear beam formation being obtained.

Figure 6 shows the center charge (9) in position when it abuts the ignition charge (3) and the main charge (2). This means that the main charge (2) ignites in the center, whereby a normal radiation formation is obtained. An initiation of the transfer charge (5,6) takes place at the same time, but since it entails a much longer path, the initiation in the main charge (2) will be so widespread that this does not have any significant significance.

In the embodiment described above, a center charge is used to ignite the main charge or not. It would also be possible to move the igniter axially to ignite the main charge or not. However, this solution has some disadvantages. On the one hand, it does not work well to initiate the main explosive directly via the lighter. Most often, especially if an insensitive explosive is used, a booster charge is needed between the lighter and the main charge. : once another 10 15 20 25 30 35,. o u .- 522 180 - u, ~ a ~ u - fi '- ~ I' '. n.

Figures 7 and 8 show the detonation process in a charge according to the invention. In both figures, the detonation front has reached the main charge, but with different starting points. Figure 7 shows how the detonation front extends around two peripheral points while Figure 8 shows how the detonation front extends substantially from the center of the main charge (2). In Figure 7, the ignition charge (3), the transfer charge (5,6) and a part of the main charge have detonated (20).

The detonation will continue in the main charge and largely hit the post (4) from two opposite directions. Which causes the insert to collapse along a line, thereby creating a flat beam. In Figure 8, the center charge (9) is in place between the ignition charge (3) and the main charge (2). The center charge (9) and the transfer charge (5,6) are initiated largely simultaneously by the ignition charge (3).

Since the center charge (9) offers a shorter path than the transfer charges (5,6) do, the detonation front will reach the center of the main charge before the periphery. Once the detonation front reaches the periphery of the main charge (2), the main charge (2) has already detonated so much that the detonation front via the transfer charge (5,6) does not appreciably affect the detonation process in the main charge. As a result, the insert (4) is compressed from all holes and collapses at one point, producing an RSV jet.

Figures 9-13 show two different types of controls that with a simple touch can change the charge between beam-forming RSV (normal RSV) and linear-forming RSV. Figures 9 and 10 show a control in the form of a slide (7) which can be slid between the two positions shown. In Figure 9, the slide is in position for linear RSV beam, in that the center charge (9) is not connected to the ignition charge (3). In Figure 10, on the other hand, the center charge (9) is connected to the ignition charge (3) and the center of the main charge (2) as in Figure 6. Figures 11 and 12 show a control in the form of a knob (8) suitably with teeth (11) which can be rotated between a position where the center charge (9) is not in communication with the ignition charge (3) and one where the center charge (9) is.

Figure 13 shows a schematic X-ray flash image of an RSV beam from a cylindrical charge with center initialization. Figures 14 and 15 similarly show a linear RSV beam from a cylindrical charge initiated at two peripheral points. Figure 15 is 90 degrees offset from Figure 14 and shows how the beam propagates like a fan in a plane. : once,. 522 180 4 The explosive in the transfer charges and in the center charge is preferably a cast, pressed or extruded booster explosive, which ensures that the main charge is initiated. For the main charge, an explosive suitable for charges of this kind is selected, eg an insensitive explosive that provides a shock-resistant charge with IM properties (Insensitive Ammunition).

Claims (11)

10 15 20 25 30 35 522 180 S 'ø ~ o - a. PATENT CLAIMS Charge (1) with directional explosive action comprising a beam-forming main charge (2) and an ignition charge (3), characterized by a transfer charge (5,6) which connects the ignition charge (3) with the main charge (2) to two points (25, 25). 26) on the periphery of the main charge (2) and a movable center charge (9) which can connect the ignition charge (3) to the center of the main charge (2). Charge (1) according to claim 1, characterized in that the charge is arranged manually at the place of use, and is switchable between beam-forming directed explosive action and linear-forming directed explosive action. Charge (1) according to claim 2, characterized in that in the case of a radiation-forming explosive action a main charge (2) is ignited in the center and in the case of a linear-forming explosive action the main charge (2) is ignited at two peripheral points (25, 26) on the main charge (2) . Charging according to one of Claims 1 to 3, characterized in that the center charge (9) is arranged on a control. Charge according to Claim 4, characterized in that the central charge (9) is arranged on a slide (7). Charging according to claim 4, characterized in that the center charge (9) is arranged on a knob (8), preferably with teeth (11) to facilitate operation. Charge according to one of Claims 4 to 6, characterized in that in the case of a linear explosive action, the control moves the center charge (9) from the ignition charge (3) so that the main charge (2) is initiated via the transfer charge (5, 6). Charge according to one of Claims 4 to 7, characterized in that in the case of a radiation-forming explosive action, the control moves the center charge (9) to connect the ignition charge (3) to the center of the main charge (2). 10 522 180 6 Charge according to one of Claims 1 to 8, characterized in that the main charge (2) is round. Charge according to one of Claims 1 to 9, characterized in that the points (25, 26) are located opposite one another. Charge according to one of Claims 1 to 10, characterized in that the transfer charges (5, 6) and the center charge (9) comprise an explosive which ensures that the main charge (2) is initiated.