FR2925955A1 - PYROTECHNIC CUTTING CORE AND METHOD FOR MANUFACTURING SUCH CORDEAU - Google Patents

Abstract

The pyrotechnic cutting cord (1) useful in military aircrafts and launchers, comprises an explosive material (5) disposed in a casing (2), and a metallic profile that forms a coating of the cut and is applied against the explosive material. The casing comprises two distinct parts assembled one after the other. The two distinct parts include a thin rear part or a covering (2a), and a thick front part (2b). The front part comprises two lateral wings (3a, 3b) forming a support for the covering and connected by a median zone that forms the coating of the cut. The pyrotechnic cutting cord (1) useful in military aircrafts and launchers, comprises an explosive material (5) disposed in a casing (2), and a metallic profile that forms a coating of the cut and is applied against the explosive material. The casing comprises two distinct parts assembled one after the other. The two distinct parts include a thin rear part or a covering (2a), and a thick front part (2b). The front part comprises two lateral wings (3a, 3b) forming a support for the covering and connected by a median zone that forms the coating of the cut, and is constituted by the metallic profile. The covering has a constant thickness, and is made of plastic or a composite material. The explosive material is applied in the form of a narrow sheet on the median zone of the front part. The narrow sheet is maintained in a place by the covering. An independent claim is included for a process for the fabrication of a cutting cord.

Description

The technical field of the invention is that of pyrotechnic cutting cords. These cutting cords are well known. They usually comprise an explosive material which is arranged in a housing and against which is applied a metal profile forming a cutting coating. The housing and the coating are usually elongated, straight or curved. The cord is applied against the wall to be cut. The initiation of the explosive causes the projection of the coating at high speed according to the conventional principle of operation of the formed charges. Due to the elongated shape of the cord, this projection causes a cut along the line followed by the cord. US Pat. No. 4,297,946 thus describes a cutting line of known type. Such a cord is usually obtained by drawing an explosive in a lead sheath, the shape of the coating (generally U or V) is obtained by deforming the cord according to this profile. Such a known cord has many disadvantages.

First of all, the cutting performance is not optimized and is not very reproducible because of the realization of the coating profile by stretch deformation of the sheath. Indeed this embodiment does not allow any flexibility on the relative placement of the explosive core relative to the coating (determination of shapes and relative thicknesses of the explosive and the coating). Then lead is a toxic material whose implementation must be limited. This metal in particular will be in the near future to proscribe for the aeronautical applications (cannons of canopy of military aircraft) and space (cutting of structures on launchers). Finally this known cord generates rear effects (projection of lead shards) which are particularly harmful in the context of an implementation for cutting canopies aircraft. Patent FR2590661 also discloses a cord which solves the problem of the reliability of the cut by proposing an elongated plastic casing inside which an explosive is placed on which a coating is applied. Such a cord is however expensive to produce. The housing is bulky and the rear effects can be still troublesome because of the presence of metal reinforcements in the wall of the housing. The object of the invention is to provide a cutting line which is both reliable and optimized from the point of view of cutting characteristics, easy to manufacture at a lower cost, and compact. Thus the invention relates to a pyrotechnic cutting line comprising an explosive material disposed in a housing and against which is applied a metal profile forming a cutting coating, chalk characterized in that the housing comprises at least two parts, a rear portion or relatively thin envelope and a front portion thicker than the rear portion, the front portion having two lateral wings forming support for the envelope and connected by a thinner middle zone forming the cutting coating. The front part may be constituted by a metal section. The envelope may have a substantially constant thickness. The envelope will advantageously be made of a plastic or composite material. According to a particular embodiment, the explosive material may be in the form of a narrow sheet 30 applied to the central zone of the front portion of the housing, the sheet held in place by the envelope. The invention also relates to a method of manufacturing such a cord, the method comprising the following steps. The manufacture of a metal profile having a generally V-shaped or U-shaped profile and comprising two lateral wings separated by a median zone which is thinner than the wings; the manufacture of a thin envelope of substantially constant thickness made of plastic and metallic material or composite and having a generally V-shaped profile or U capable of cooperating with the profile being fixed at the wings of the latter. According to a first embodiment of this method, the explosive material is shaped like an elongate strap by the cutting of a sheet, the strap is then positioned at the median zone of the profile and then deformed to fit the latter, - the envelope is finally applied to the strap and the profile to close the housing. According to a second embodiment of this method, the thin envelope is positioned in a matrix having a shape complementary to the external profile of the envelope, and a cord is placed in the internal volume delimited by the envelope. an explosive material, - this material is pressed into the envelope with a punch having a shape similar to that of the profile, - the profile is positioned in the envelope carrying the explosive to close the housing. The explosive bead may be substantially cylindrical and obtained by extrusion.

In all cases we can fix the envelope to the profile by gluing. The invention will be better understood on reading the following description of various embodiments, a description given with reference to the accompanying drawings and in which: - Figure 1 is a cross-sectional view of a cord in a first mode FIG. 2 is a perspective view of this cord, FIG. 3 is a cross-sectional view of a cord according to a second embodiment of the invention, FIG. a block diagram schematizing the first steps of the method according to the invention, - Figure 5 is a block diagram schematically the different steps of a first embodiment of the method according to the invention, - Figure 6 is a block diagram schematically the different steps of a second embodiment of the method according to the invention. Figure 1 shows a line 1 according to a first embodiment of the invention. This cord comprises a housing 2 which comprises at least two parts: a rear portion (or envelope) 2a and a front portion 2b. The front portion 2b is made in the form of a metal profile of a non-toxic material: aluminum, steel, copper ... This profile is generally V-shaped or U-shaped. It comprises two lateral wings 3a and 3b which are connected by a median zone 4 which is thinner than the lateral wings. This median zone 4 forms the cutting coating of the cord. An explosive material 5 is applied against the medial zone 4 and is held in place by the envelope 2a. It can be seen in the figure that the envelope 2a is relatively thin and in particular that it is thinner than the front portion 2b of the housing. The envelope 2a also has a substantially constant thickness. The envelope may be made of a metallic material such as aluminum. Advantageously, however, the envelope 2a will be made of a plastic material or a composite combining a plastic material and reinforcing fibers (glass fiber, Kevlar (registered trademark) or carbon fiber). The thickness of the envelope 2a will be chosen as a function of the mass of explosive 5 which is used. Providing a relatively thin and light rear envelope 2a makes it possible to minimize the rear effects of the cord 1.

The envelope 2a maintains the explosive material 5. It is attached to the front portion 2b at the outer surface of the side wings 3a and 3b thereof. The joining is for example ensured by gluing.

Thus the front portion 2b of the housing also forms a support for the envelope 2a. At the initiation of the explosive 5 the median zone 4 (which is curved) is projected in the form of high speed jet. The mechanical rupture occurs preferentially at the level of zones 6 situated between the flanges 3a, 3b and the median zone 4, because of the abrupt change in the thickness of the front portion 2b at these zones 6. The particular form proposed by the invention thus makes it possible to make the performance of the cutting line reliable. Indeed the geometry of the front part 2b is controlled. No longer with the invention reproducibility defects encountered with known cords lead sheath deformed. The reduced thickness of the envelope 2a also makes it possible to minimize the rear effects (projection of chips). Those skilled in the art will size the front portion 2b and in particular the differences in thickness between the median zone 4 and the wings 3a, 3b as a function of the mass of explosive 5 and the materials used to make the front portion 2b. According to a first embodiment of the invention, the explosive 5 is constituted by a narrow sheet which is applied and deformed on the central zone 4 of the front portion 2b of the housing.

Figure 2 shows in perspective the cutting line 1. This cord extends over a length L which is chosen according to the desired application. The U-shape of the front portion 2b of the housing defines a cavity 7 which allows the formed charge jet to develop.

In a manner conventional to the skilled person in the field of pyrotechnics, the depth of this cavity will correspond to the optimum distance to ensure between a shaped charge coating and a target to have the best perforation. In some applications (particularly cutting cords having to act under water) it will be possible to fill the cavity 7 with a light material, for example a synthetic foam. The initiation of the load 5 is provided by means of a priming means 8 which is arranged at one end of the cord. The other end is closed by a cover or a metal sheet (not shown). Figure 3 shows a cutting line 1 according to another embodiment. This mode differs from the previous one in that the lateral wings 3a and 3b of the front portion 2b of the housing each comprise a notch 9 which constitutes the receptacle of the envelope 2a. Such an arrangement improves the integration of the envelope 2a on the front portion 2b. Furthermore, one of the lower edges of the wings 3a, 3b is rounded and the other edge is secured to a fastening tab 16 carrying at least one hole 17 for receiving a fastening means. Such a solution is suitable for laying a cord on a support. One could alternatively define a cord carrying two fastening tabs, one at each wing 3a, 3b. FIG. 4 schematizes the first steps of the method according to the invention. It is indeed first of all. It is necessary to manufacture a metal profile 2b having a generally V-shaped or U-shaped profile and having two lateral wings 3a, 3b separated by a median zone 4 which is thinner than the wings (plus possibly lateral attachment tabs). Such a metal section is easily manufactured by extrusion. It is then cut to the desired length. In addition, a thin and substantially constant thickness envelope 2a is also manufactured. Depending on the case this envelope may be made of a light metal (such as aluminum). It can then also be performed by extrusion.

If the envelope 2a is made of a homogeneous plastic material or incorporating short fibers (less than 5 mm), it may also be produced by extrusion. If the envelope 2a is made of a long fiber composite material it can be achieved by weaving and then coating the fabric with a plastic material. The envelope will then be heat-formed to the desired U-shape using a suitable mold. Whatever its embodiment, it will cut well 10 10a envelope 2a to the desired length and already chosen for the section 2b. According to a first embodiment of the method according to the invention, the explosive material is in the form of an elongate strap (FIG. 4). Simply cut a sheet of plastic explosive material such as Formex (trademark). The width 1 of the strap 10 will be chosen substantially equal to the external length in section of the central zone 4 of the front portion 2b of the housing. FIG. 5 shows the succession of the different steps of this embodiment of the method: In step A1 the strap 10 is positioned at the median zone 4 of the profile 2b, then it is deformed so that it comes to marry this middle zone. In step B1, the envelope 2a is applied to the explosive strap 5 to close the housing. The envelope 2a is fixed to the front part 2b by gluing the envelope 2a at the external surfaces of the lateral wings 3a, 3b. The assembly being thus completed, the cord 1 is completed (step C1). This embodiment of the method comprises only assembly operations and is therefore particularly simple to implement. Figure 6 schematizes another embodiment of the method according to the invention. This embodiment differs from the previous one by the method of placing the explosive material 5.

According to this method, an explosive lanyard is not cut to the desired dimensions, but a length of an extruded explosive material is cut in the form of a bead 11, for example cylindrical.

It is indeed easy to commercially obtain such explosive extrudates. Then simply deform to give them the desired shape. For this, in step A2, the thin envelope 2a is positioned in a matrix 13 comprising a cavity 12 of complementary shape to the external profile of the envelope 2a. Then is positioned in the internal volume 14 delimited by the envelope 2a a cord 11 of the explosive material. This explosive material is then compressed directly into the envelope 2a and with the aid of a punch 15 having a shape similar to that of the profile 2b which will then be used. The result obtained after removal of the punch 15 is shown in step B2: a layer of explosive material 5 is positioned in the envelope 2a and has the desired shape to receive the front portion 2b.

In step C2 we finally position the profile 2b in the casing 2a carrying the explosive 5. Thus closes the housing 2. The fastening of the casing 2a and the front portion 2b is again ensured by bonding. This embodiment simplifies the implementation of the explosive. It is indeed easier to compress a commercially available explosive cord than to cut an explosive sheet to the desired dimensions.

Claims (10)

1. Cord (1) pyrotechnic cutting comprising an explosive material (5) disposed in a housing (2) and against which is applied a metal profile forming a cutting coating, chalk characterized in that the housing comprises at least two parts, a rear portion or casing (2a) relatively thin and a front portion (2b) thicker than the rear portion (2a), the front portion having two lateral wings (3a, 3b) forming a support for the casing (2a) and connected by a thinner middle zone (4) forming the cutting coating. 2. cutting line according to claim 1, characterized in that the front portion (2b) is constituted by a metal section. 3. cutting line according to one of claims 1 or 2, characterized in that the casing (2a) has a substantially constant thickness. 4. Cutting line according to claim 3, characterized in that the envelope (2a) is made of a plastic or composite material. Cutting cord according to one of Claims 1 to 4, characterized in that the explosive material (5) is in the form of a narrow sheet applied to the central zone (4) of the front part (2b) of the housing ( 2), sheet held in place by the envelope (2a). 6. A method of manufacturing a cutting line according to one of claims 1 to 5, the method comprising the following steps. -production of a metal profile (2b) having a generally V-shaped or U-shaped profile and having two lateral wings (3a, 3b) separated by a median zone (4) thinner than the wings, - manufacture of an envelope thin film (2a) of substantially constant thickness, of plastic, metal or composite material and having a generally V-shaped or U-shaped profile capable of cooperating with the profile (2b) while being fixed at the level of the wings (3a, 3b) of this latest. 7. Manufacturing process according to claim 6, characterized in that. the explosive material (5) is in the form of a strap (10) elongated by cutting a sheet, - the strap (10) is then positioned at the central region (4) of the profile (2b). ) and then deformed to fit the latter, - the envelope (2a) is finally applied to the strap (10) and the profile (2b) to close the housing. 8. Manufacturing process according to claim 6, characterized in that: - the thin envelope (2a) is positioned in a matrix (13) having a shape complementary to the external profile of the envelope (2a), - placing a bead (11) of an explosive material in the internal volume delimited by the envelope (2a), - this material is compressed in the envelope (2a) by means of a punch (15) having a shape similar to that of the profile (2b), - the profile (2b) is positioned in the envelope (2a) carrying the explosive (5) to close the housing (2). 9. Manufacturing process according to claim 8, characterized in that the explosive bead (11) is substantially cylindrical and obtained by extrusion. 10. Manufacturing process according to one of claims 6 to 9, characterized in that the casing (2a) is fixed to the profile (2b) by gluing.