초록 ▼

The invention relates to a method for obtaining linear detonating shaped cutting charges (100) and to novel linear detonating shaped cutting charges (100) that are able to be obtained by means of said method. Characteristically, the sheath (101) of said charges (100) is shaped before filling and, on

The invention relates to a method for obtaining linear detonating shaped cutting charges (100) and to novel linear detonating shaped cutting charges (100) that are able to be obtained by means of said method. Characteristically, the sheath (101) of said charges (100) is shaped before filling and, once filled, it is only slightly deformed for perfect adaptation to the material contained therein. Ultimately, said sheath (101) has concave (C) outer walls (10a, 10b).

대표청구항 ▼

1. A method for obtaining a linear detonating shaped cutting charge, said charge comprising a cylindrical metal sheath with chevron-shaped cross section enclosing an explosive energetic material, the method comprising: providing a hollow preformed metal container that extends from a first open dista

1. A method for obtaining a linear detonating shaped cutting charge, said charge comprising a cylindrical metal sheath with chevron-shaped cross section enclosing an explosive energetic material, the method comprising: providing a hollow preformed metal container that extends from a first open distal end to a second open distal end, thereby defining a longitudinal axis, the hollow preformed metal container having a cylindrical form with a groove in the form of an inverted V along the longitudinal axis, a cross section of which has a chevron-shape and exhibits a symmetry relative to the median axis of said groove, and which comprises two inner walls delimiting said groove and two outer walls on either side of an apex of the chevron shape as viewed in cross-sectional side view;providing said container with an internal volume filled with a compression-deformable explosive energetic charge; anddeforming said outer walls along the longitudinal axis so that each of the outer walls is concaved inwardly towards the respectively facing inner wall as viewed in cross-sectional side view, thereby reducing the filled internal volume of the container as compared to that of before the deformation of the outer walls so as to remove voids present in said filled internal volume without deformation of the inverted V groove,wherein the open distal ends are blocked before the outer walls are deformed. 2. The method as claimed in claim 1, wherein the internal volume of the container is filled with a filling material chosen from a compression-deformable explosive energetic charge and a precursor of such a charge; andwherein the container is blocked so as to ensure that, within said container, said compression-deformable explosive energetic charge, said precursor of such a charge or a compression-deformable explosive energetic charge resulting from an in situ transformation of said precursor is maintained under longitudinal compression, an in situ treatment of said precursor ensuring transformation of the precursor into a compression-deformable explosive energetic charge being implemented before or after said blocking. 3. The method as claimed in claim 1, wherein said container is obtained by shaping a hollow metal tube. 4. The method as claimed in claim 1, wherein said container is made of copper, molybdenum or lead. 5. The method as claimed in claim 1, wherein said filling is implemented by introducing at least one bar with an outline fitted to that delimiting the internal volume of the container. 6. The method as claimed in claim 5, wherein said at least one bar is a bar made up of powder-form charges or compressed granules, a bar made up of a wax explosive or an explosive bar with plastic binder. 7. The method as claimed in claim 1, wherein said filling is implemented by introducing a powder-form charge, with or without binder, followed by a longitudinal compression of said powder-form charge that has been introduced. 8. The method as claimed in claim 1, wherein said filling is implemented by casting an explosive with plastic binder, followed by a heat treatment ensuring the in situ cross-linking of said binder. 9. The method as claimed in claim 1, wherein said deformation is performed by rolling the container between rollers or by passing the container through a die or a linear press. 10. A linear detonating shaped cutting charge, comprising a cylindrical metal sheath with chevron-shaped cross section enclosing an explosive energetic material, able to be obtained by the method as claimed in claim 1, wherein the sheath of which exhibits, over the entire length of each of outer faces thereof, facing inner faces thereof which delimit the inverted V-shaped groove of the chevron shape, a concavity. 11. The charge as claimed in claim 10, wherein said sheath has a dome prolonged by outer walls thereof bent back to form the inverted V-shaped groove, delimited by inner walls thereof. 12. The method as claimed in claim 1, wherein said container is made of copper. 13. The method as claimed in claim 1, wherein said filling is implemented by successive introduction of n bars with an outline fitted to that delimiting the internal volume of the container. 14. The method as claimed in claim 2, wherein one of the open distal ends is blocked before filling the internal volume of said container with the filling material. 15. The method as claimed in claim 2, wherein the open distal ends are blocked after the internal volume of the container has been filled with the filling material.