FR2920689A1 - KIT FOR MOUNTING A PYROTECHNIC CUTTING DEVICE; THIS PYROTECHNIC DEVICE AND ITS USE. - Google Patents

Abstract

The present invention relates to: - a kit (10) for mounting a pyrotechnic cutting device (100), comprising at least two dihedral linear hollow charge segments (4a, 4b) and at least one corner connection module ( 1a, 1b) of at least two segments of this type: - such an angle connection module (1a, 1b), essential part of said kit (10) and said cutting device (100); - a pyrotechnic device of The present invention is particularly applicable in contexts of rapid intervention by law enforcement or relief for the opening of passages through walls.

Description

The present invention relates to the pyrotechnic cutting of structures, more particularly that of wall-type structures, partition to generate gaps in said structures ... It is more specifically for: - a kit for mounting a pyrotechnic cutting device; - An angle connection module of two dihedral linear hollow charge segments essential component of said kit (and said device); a pyrotechnic cutting device; the development of such a device (by assembly); and the use of such a device, namely a pyrotechnic cutting process. The pyrotechnic cutting device of the invention typically results from the assembly of a modular kit.

The present invention is particularly applicable in contexts of rapid intervention of law enforcement or relief for the opening of passages through walls (partitions) of materials of various types and thicknesses, such as for example metal walls, composites, glazed, masonry or other.

The device of the invention is particularly suitable when the duration of intervention to obtain the opening of the passage must be short (in order, for example, to limit the exposure time of the intervention personnel to a danger, to generate a surprise effect), and / or when collateral effects must be minimized. The use of the device of the invention is therefore recommended in any field requiring a clean cut of a passage through a partition, in a context of urgency or danger, as for example for the opening of a breach for the emergency evacuation of persons. The rapid opening of a passage through a wall (wall) can be achieved by means of non-directed explosives. It is known that this method requires substantial masses of explosives and causes significant collateral effects, generally unacceptable. In addition, the rubble caused by the explosion can hinder the passage of the means of intervention.

There are also pyrotechnic cutting devices consisting of a polygonal assembly of explosive charges.

US Patent 4,905,601 discloses a rectangular structure whose edges are V-shaped and whose cavity is filled with an explosive. The outer structure of the V has absorbent material (water, sand) to reduce the back effects of detonation. This device constitutes a state of the art intermediate between the use of a simple explosive charge and that of linear dihedral hollow charges. Other devices of the prior art use an assembly of dihedral linear hollow charges. Loads of this type have in particular been described in patent applications FR 2 464 778 and 2 590 661. They consist of a detonating cutting line. They are also called linear dihedral cutting loads. Said dihedral linear hollow charges are formed of a metal sheath, usually copper or lead, in close contact with an explosive substance. This metallic sheath is dihedral; its cross-section forms a V. The detonation of the explosive substance projects the two faces of the metallic sheath (inner faces of the dihedron) into its plane of symmetry where their collision gives rise to a two-dimensional, blade-shaped metal jet animated by high speed (several thousand m / s). When said jet encounters a material placed in the vicinity, it digs a groove, which causes the shear (the sectioning of the piece into said material). The explosive substance may in particular be of the HMX or RDX type. The patent application US 2005/0126420 discloses a deployable polygonal cutting device whose segments consist of Inéaires hollow charges. Each segment, not connected linearly to another, is provided with at least one detonation initiation means. The dimensions of the cut opening are predetermined by the geometry of the assembly of the deployable structure. These dimensions can not be adapted according to the necessity of the intervention. In addition, the use of several detonators increases the complexity and cost of the device, as well as its dangerousness. US Pat. No. 3,838,643 describes a device for opening a gap in a ship's hull, a device consisting of a frame composed of four hollow load segments. A transversal tie rod, fixed on the solid inner part of the frame, allows the manipulation of the frame. This tie also incorporates a detonation initiation means that propagates a detonation wave at two opposite corners of the frame, initiating via a relay charge the four linear hollow charges composing the frame. The disadvantage of this device is therefore also to be pre-sized and require several points of initiation.

In such a context, a person skilled in the art is looking for a device for cutting an opening (of a passage, more generally of a gap) in a partition (a wall), (which may for example consist of in a wall or a door), able to function in a short time, limiting the collateral effects and the production of rubble; said device to be portable, high performance, adjustable geometries and dimensions, bi or three-dimensional, small footprint and mass, ergonomic and can be positioned on the object to be cut by simple application, requiring at least one detonator for his operation. The person skilled in the art has for main purpose the application of such a device in the context of emergency interventions of law enforcement or relief. With reference to this specification, the present invention proposes, according to its first object, a kit for mounting a pyrotechnic device for cutting structures (particularly of walls or partitions type). The exact characteristics of the components of said kit and how to assemble determine the characteristics and geometry of said device, to optimize depending on the desired cut, including the geometry thereof. Said device obtained after assembly of said kit is the second object of the present invention.

The essential components of said kit and therefore of said cutting device are dihedral linear hollow charges. These fillers produce the desired cutting effect (provided, of course, that they are oriented in a suitable manner with respect to the surface of the structure to be cut).

The kit of the invention comprises the essential constitutive elements hereafter: at least two segments of dihedral linear hollow charge; and at least one angle connection module of at least two dihedral linear hollow charge segments; said at least one module being constituted of at least two dihedral linear hollow charge elements, arranged in a contiguous manner at their end (s) with contact of their respective load. From said essential components (and of course at least one detonation initiation device), it is possible to assemble and make effective a cutting device of the invention, in its basic version. The connection module is suitable for connecting (connecting), with contact charges for the transmission of the detonation, at least two segments. Said connection module is an angle connection module: the connected segments are not all aligned. Said corner connection module consists of n adjoining elements: n> 2; for example: - two joined elements. It can then have the shape of a V or an L and is suitable for connecting two segments; - of three (n> 3) joined elements. It can then have the shape of a U, a W ... (of an open polygon) and is still suitable for connecting two segments. The end elements of said U, W (of said open polygon) are arranged contiguously, in a single end, with the (the) element (s) central (aux). Their free end is intended to be brought into contact with one end of a segment, in the structure of the mounted kit (cutting device). The element (s) central (to) said U, said W (said polygon) is (are) arranged (s) contiguously, at its (their) two ends, with other elements; - of three (n> 3) adjoining elements (another variant). It can then have the shape of a star with 3 branches, for example that of a Y (at least 3 branches, for example that of a -4-); and is then suitable for connecting three segments (at least 3 segments). Each of said elements is connected to the other elements of the star and has a free end, intended to be brought into contact with a segment end, in the structure of the assembled kit (cutting device). Said corner connection module is advantageously constituted by n elements (very advantageously two elements), arranged contiguously in at least one of their ends (at one of their two ends). It is suitable for the connection of two segments; one of the ends of each of said two segments being called to be brought into contact with the free ends of the end elements of the open polygon with n elements (free ends of said two elements). Incidentally, it will be noted here that, obviously, the orientation of the charges, within the segments and the elements of the connection modules, is the same and that it is suitable for producing a suitable cutting device (that is, that is, the loads of the constituent elements can be arranged facing the structure to be cut, the cavity of the V (dihedron of said hollow charges) being directed towards said structure).

In the structure of an angle connection module of the kit of the invention, the elements are arranged contiguously with contact of their load; this to ensure the transmission of the detonation. Such an arrangement can be obtained in various ways. Advantageously, the respective charges of the contiguous elements of an angle connection module are in contact at the faces of said bevelled elements (with, for example, an angle of 45 °). More generally, the faces brought into contact have complementary geometries. In particular, there may be nesting at flat or non-planar faces. The non-contiguous faces of the corner connection module elements are a priori straight in order to be able to stick to the straight faces of segments. In any case, they must be able to be brought into contact with the faces of segments, with contact of the charges, for the transmission of the detonation, within the structure of the assembled kit. Advantageously, the corner connection module consists of two elements joined at the level of beveled faces. The connection angle can be any. It is generally 45: It is conceivable that this configuration is the basic configuration of an angle connection module of the invention. In general, but not limitatively, the elements are joined by gluing. It has been seen above that the junction could also be made by interlocking. The kit of the invention advantageously comprises, in addition to the segments and connection module (s), explosive relays to be arranged on the non-adjoining faces of the elements of said connection module (s). Such relay loads have as their object, within the structure of the cutting device of the invention, to promote the detonation transmission between the said connection module (s) and the segments. Such relay charges are known per se. They are based on so-called plastic explosives (RDX and / or pentrite, for example). They have a soft consistency or are formatted to have a shape complementary to that of the two hollow charges to be connected ... The kit of the invention may include the segments and elements of (the) module (s) connection, bare. Advantageously, it comprises said segments and / or elements, conditioned, that is to say stiffened, stabilized, protected ...

Thus, the (s) module (s) connection of the kit of the invention is (are) they (are) advantageously arranged (s) stably in an armature. Such an armature, made of any material, advantageously rigid, advantageously of low weight (such as a rigid plastic), preferably has a face, opposite the dihedron of the hollow, thinned or perforated load elements. . It is thus intended to minimize the impact of said armature on the performance of the load. The connection module, packaged in said frame, can be glued to it or nested therein. Thus, the dihedral linear hollow charge segments of the kit of the invention can be arranged, stably, in a hollow rule. Such a hollow rule, made of any material, advantageously rigid, advantageously of low weight (such as a rigid plastic), generally has a rectangular section. Preferably, its face, vis-à-vis the dihedral of the load segments, is also thinned or perforated or nonexistent. It is thus intended to minimize the impact of said rule on the performance of the load. The segment, conditioned in said hollow rule, can in particular be glued to it by its rear face. Advantageously, the lengths of said conditioned segment in a rule and of said rule are identical.

In the context of an advantageous variant, the segments and connection module (s) of the kit are packaged as indicated above, that is to say respectively in hollow rules and reinforcement (s) and at least one of ends of said hollow rules is adapted to be secured to the ends of said armature; the solidarity in question obviously involving a contact charges (for the trans-mission of the detonation), direct contact or via an explosive relay. Said solidarization in question: rule / reinforcement can be carried out during assembly of the kit, by interlocking or by clamping. The rules and reinforcement (s), as described above, may include housing suitable for receiving a detonator.

Advantageously, such housings are arranged vis-à-vis the rear face of the hollow charges. According to a preferred embodiment, the connection module (when only one module intervenes) or at least one of the connection modules (when several modules are involved) is arranged in a frame which comprises a housing for receiving a detonator. When several modules intervene, advantageously only one is arranged in a frame that includes such a housing. A single detonator thus intervenes very advantageously at a connection module. We talked about a detonator above. The person skilled in the art understands that, obviously, for the firing of the assembled kit (cutting device), such a detonator and more generally at least one device for detonation initiation (electric detonator disposed at the end of a electric line or shock wave detonator disposed at the end of a shock wave tube or detonator placed at the end of detonation cord detonation line detonation, generally) is required. Thus, the kit of the invention may it comprise at least one such device for detonation initiation (advantageously only one device of this type, very advantageously only one device of this type whose detonator can be housed in a housing provided for this purpose on a connection module frame (see above)). Such a detonation initiation device does not necessarily form an integral part of the kits of the invention. It can be reported by the user of the assembled kit (before firing). Most often, it is not directly included in the kit. In principle, it is generally preferred (for obvious reasons of safety) not to combine the explosive charges and their means of initiation in the same batch. Incidentally, it can be noted here that the metal sheaths of the segments and / or elements capable of receiving the at least one detonator (directly or through a rule or frame) may have been locally thinned to reduce their thickness and thus promote initiation. of the explosive of the hollow charge. As a rule, the kit of the invention does not comprise (see above) or comprises only one detonator associable to a hollow charge element of a connection module whose metal sheath may have been locally thinned. The kit of the invention may further comprise means for fixing the segments (bare or conditioned) on the structure to be cut. The presence of such means, which may exist in different forms (it may for example be flanges, able to straddle the segments (advantageously the rules of such segments), said flanges having tabs adapted to be fixed, for example thanks to an adhesive, on said structure) is generally appropriate. It is mandatory in certain contexts (vertical walls, inclined ...). However, it is not mandatory in all contexts (horizontal walls, floor type). Said securing means of the segments are or are not secured to said segments. Advantageously, they are secured to said segments. Thus, such fastening means advantageously consist of flanges with lugs, provided on all their internal faces of adhesive film (for a double attachment to a segment and the structure to be cut). At least some of said fastening means, which can be secured to a segment, of flange or other type, advantageously have in their structure a flat support, suitable for securing a handling device of the mounted kit (see FIG. below). Such handling means mounted kit advantageously constitutes a part of said kit of the invention. It constitutes an appreciable aid for handling (moving) and positioning said assembled kit. It can exist in different forms. It must be able to be secured to said mounted kit, preferably segments (bare or packaged) of said kit. According to a particularly advantageous embodiment, the kit of the invention comprises means for fixing the segments on the structure to be cut, able to be secured to said segments and a means of handling the assembled kit (cutting device); said handling means advantageously having arms provided at their free end means for temporarily securing said arms to at least some of said segment fixing means on the structure to be cut, adapted to be secured to said segments.

The length of the arms is advantageously adjustable by means of sliding extension, so that said handling means is suitable for handling assembled kits of different dimensions, or even different shapes. The securing means of the segments on the cutting structure in question, capable of being secured to the segments are clearly intended to assume a dual function: fixing with stabilization of the segments on the structure to be cut and stowage of the handling means. Such fastening means advantageously consist of flanges with plane support (see above). The skilled person has understood that the embodiment specified above is particularly advantageous but that it is entirely possible to provide means for securing the different handling means, independent of the fixing means of the segments to the structure to be cut. In general and more particularly in the context of the advantageous embodiment specified above, the means for temporarily securing the handling means to the assembled kit may consist of; suction cups. Thus, advantageously, the handling means has arms provided, at their free end, suckers. In the kit of the invention, the means necessary for the use of such a handling means with suction cups are advantageously found. Thus, said kit may further comprise: first means for ensuring, by depression, the adhesion of said suction cups to means for fixing the segments to the structure to be cut, means capable of being secured to said segments; and second means for ensuring, by bringing to atmospheric pressure, the separation of said suction cups from said fixing means (able to be secured to said segments). Said first means essentially comprise a pumping means. Vacuum piping connects said pump means to said suction cups. It is advantageously arranged on or in the arms of the handling means. Said pumping means can advantageously be separated from the pipework before handling the assembled kit to install it on the structure to be cut.

The pumping means is, for example, connected to the pipework via a non-return valve. The second means advantageously comprise a valve, mounted on the pipe, which allows to put the pipework and thus the suction cups, at atmospheric pressure; this in order to separate (uncouple) the handling means of the assembled kit. Advantageously, a vacuum gauge is mounted on the piping to control the level of vacuum in it. The kit of the invention has been described above, more specifically its essential constituent elements as well as optional elements thereof. Other non essential elements can intervene ... In reference to the essential elements (segments, module (s) of connection), one can further add the following. It is not excluded that the kit of the invention contains segments and / or elements (module) of hollow charges of different cutting powers (nature of the load, linear density of explosive) that the man the profession will choose according to the nature and thickness of the structure to be cut. Similarly, it is also not excluded that the kit of the invention contains segments and / or elements (of module) of different lengths, and / or angle connection modules of different angular openings that the one skilled in the art will choose according to the desired geometry for the cutting device. On reading the above description of the kit of the invention, it was understood the fundamental role played by the (s) module (s) angle connection. Said modules constitute per se an object of the present invention. These are angle connection modules of at least two dihedral linear hollow charge segments, consisting of at least two dihedral linear charge elements, arranged contiguously at their contact end (s). their respective load.

It has been seen above that such modules can exist in many variants. They can contain n (n> 2) dihedral linear hollow charge elements, arranged according to different geometries. They may especially have the following forms: V, L, U, W, Y, ... Within their structure, the elements are advantageously joined via bevelled faces. Said elements and more generally said modules may be packaged in an armature, which advantageously comprises a housing for a detonator. Reference is made to all the precisions provided above concerning said modules, in the description of the kit of the invention. According to another of its objects, the present invention relates to the cutting device assembled from the kit constituting the first object of said invention. Said device comprises the essential components of said kit (segments, bare or packaged in rules, corner connection module (s), naked (s) or conditioned (s) in a frame (s)) (and possibly other elements, such as: explosive relay, at least one device for detonation initiation, means for fixing the segments to the structure to be cut, etc. assembled according to a structure in which the load segments Ductile linear hollow are connected, at least two by two, by an angle connection module, with direct contact of the charges of said segments and angle connection module or contact via an explosive relay of said charges. Within the structure of the cutting device of the invention, there is continuity between the charges: charges of the different segments via the charges of the elements (of) module (s) of angle connection. Thus, it is possible to generate in a structure a free cutting line, closed or not, advantageously closed to generate in said structure a clear delineation opening. The segments and connection module (s) thus connected thus advantageously form a polygon, very advantageously a yarn polygon. Note that it is not excluded that the device of the invention is three-dimensional (with connection modules themselves three-dimensional). The assembly in question may be an assembly by gluing. It has been seen above that, especially in the case where the segments and module (s) of corner connection are conditioned, they can also be assembled via their packaging (rules, frames). The assembly, the joining in question, is advantageously an interlocking. Clamping is not excluded ... The structure of the device of the invention also comprises, in a variant, at least one device for detonation initiation. It has been seen above that such at least one initiation device can be an integral part of the kit or only intervene at the mounted kit level. In the latter case, it can intervene more or less early: when mounting the kit or on the kit mounted or on the kit mounted and positioned on the structure to be cut. It is recalled that in any case, the (s) detonator (s) intervening is (are) advantageously arranged (s) to initiate a connection module element; an element whose metallic sheath may have been conveniently thinned at the place (s) of application of the said detonator (s). It is recalled that it intervenes very advantageously a single detonator.

The cutting device of the invention (mounted kit) may also comprise in its structure means for fixing the segments to the structure to be cut, means advantageously secured to said segments. We have already given details on such means by describing them present in the kit. We have seen that it is advantageously flanges and that some of said flanges conveniently provide a flat support for securing a handling means. At least one flange per segment is generally provided, advantageously at least two flanges (of which one with plane support per segment). It obviously depends on the length of the segments.

It is recalled that the device of the invention is advantageously handled with a handling means. Such a handling means does not, however, obviously in the structure of said device. With reference to the specification set forth in the introduction to the present description and in view of said description, the skilled person has already grasped the whole point of the present invention. Those skilled in the art will also be able to adjust the dimensions and the geometry of the cutting device to the structure to be cut, for example by cutting segments to a predetermined length and / or by using angle connection modules of an opening predetermined angle and / or using corner connection modules of different angular apertures.

The person skilled in the art will of course also be able to choose the hollow load segments of a cutting power adapted to the structure to be cut. According to its last objects, the present invention relates to the development of the cutting device and its use. It has already been understood that said development comprises the assembly or assembly of the constituent elements of the kit (at least essential components). Said assembly or assembly can be implemented by gluing and / or interlocking and / or clamping ... Its implementation does not pose any particular difficulties. As regards the use of the cutting device, it is analyzed as a method of cutting a structure. The method generally comprises: a) developing said cutting device; said device including or not at least one device for detonation initiation; b) securing said developed device to a means of handling thereof; c) positioning and possibly fixing said device on the structure to be cut using said handling means; d) the possible introduction of at least one detonation initiation device on said device positioned and possibly fixed; e) retraction of said handling means; f) the detonation of the charges via the said at least one device for detonation initiation.

It has been indicated that "generally comprises" insofar as it is obviously conceivable to use the cutting device of the invention without handling means. Said device can for example be developed directly on the structure to be cut (such as a floor) ... It should also be noted, as already indicated, that the detonation initiation device can intervene upstream (at the time of preparation cutting device) or more or less downstream. In fact, steps d) and e) can quite be reversed. The figures appended to the present text illustrate, in no way limiting, the various aspects of the present invention (mounting kit, mounted kit = cutting device, development and use of said device). - Figure 1 is a perspective view of the essential components (two segments + a connection module) of a kit of the invention. FIG. 2 is a sectional view of a hollow load segment disposed in a hollow ruler. FIG. 3A is an exploded perspective view of a connection module with armature and explosive relay. - Figure 3B is an exploded perspective view of a connection module according to Figure 3A, adapted to receive a detonator. FIGS. 4A and 4B show in perspective, respectively seen from above and from below, a fastening flange with tabs, able to position itself on a segment. - Figures 5A and 5B show in perspective, respectively seen from above and from below, another type of fixing flange with 15 legs (+ flat support), adapted to position on a segment. - Figure 6 shows in perspective a cutting device of the invention (= assembled kit), according to a "sophisticated" version. - Figure 7 shows in perspective the cutting device of Figure 6 equipped with a handling means. Figs. 8A, 8B and 8C (perspectives) illustrate the use of said cutter of Fig. 6 (to generate an aperture in a wall). FIG. 1 thus shows the basic constitution of a cutting kit of the invention 10. Said kit 10 comprises 25 - a single angle connection module comprising it itself two elements 2a, 2b of hollow charge (typically 6 cm long) joined by their explosive charge 3a, 3b (at their bevelled faces 6a, 6b); and two hollow charge segments 4a, 4b (of appropriate length if required, typically 0.3 to 1.5m long). The hollow charges 3a, 3b, 3 in question (the charges 3 of the segments 4a and 4b may be identical or different) are, for example, detonating cores of linear cutting to 5 lead casing, loaded secondary explosive type RDX. The average value of the explosive charge of such a structure can vary from 7 g / m to 75 g / m). The cutting capacity of such a structure can thus vary from 2.5 mm to 14 mm for a mild steel metal wall. One possible variant is the use of linear charges with copper shells loaded with RDX or HMX type explosives. The cutting capacity can thus be practically doubled without a significant increase in the amount of explosive. By further increasing the explosive charge, the cutting capacity can reach 60 mm of mild steel. The indications given above, as to the nature, the quantity, the performances, are purely illustrative. The two elements 2a, 2b are joined, by gluing, by one of their faces (respectively the face 6a of the element 2a and the face 6b of the element 2b) cut to a complementary bevel. The two free faces 6'a, 6'b of the two elements 2a, 2b are straight. Both segments 4a, 4b have straight faces. They are each called to come into contact by their explosive charge via one of their straight faces with the free faces 6'a, 6'b of the elements 2a, 2b of the connection module 1a. With this arrangement, a single detonation initiation device 50 + 51 (shown in Figure 3B) allows the operation of the mounted kit. The continuity of the transmission of the detonation is in fact ensured by the intimate contact of the loads at the different junctions. 7 is referenced a countersink formed on the casing 5 of a 2a of the two elements 2a, 2b of the connection module la. The thickness of said casing 5 is decreased at this counterbore 7, called to intervene with respect to the detonation initiation device 50 + 51 (shown in FIG. 3B). This countersink 7 makes it possible to increase the reliability of the priming of the explosive charge (here 3a). The kit 10 of Figure 1 has a minimal structure, primary (two segments + a connection module), stripped, unsophisticated (said segments and module not being particularly conditioned). They are however suitable, as those skilled in the art understood, to form, for example by gluing, a powerful pyrotechnic cutting device. We have seen that, in a more sophisticated version, the load segments can be conditioned. They can in particular be arranged, stably, in hollow rules, whose length corresponds to that of said segments. In FIG. 2, we have shown such a segment (of dihedral linear hollow charge), referenced 4 (it can very well be a segment 4a or 4b of FIG. 1) stuck in a hollow ruler 8, which can advantageously be plastic. Any adhesive 9, adapted to the materials to be bonded can be retained. It can especially be a silicone-based glue. Preferably, the face of the rule vis-à-vis the dihedron of the hollow charge of the segment is thinned and / or perforated. Very preferably, as illustrated in FIG. 2, the hollow rule 8 is rectangular with three sides (of thickness that may vary from 1 to 3 mm), the fourth being open facing the dihedron of the hollow charge 3. In the context of such a sophisticated version, the corner connection modules are advantageously arranged in an armature and explosive relays are placed at each free end of the hollow charge elements. FIG. 3A thus shows a connection module, of the type of that of FIG. 1, in such a sophisticated version (that is to say with its armature and explosive relays). Said connection module, sophisticated version, is, for reasons of simplification, also referenced la. Its structure comprises: - a base 11 receiving the elements 2a, 2b of detonating cutting lines with contiguous faces 6a, 6b beveled, -a cover 11 ', - explosive charges relay 12a, 12b of the explosive plastic type (as for example l plastrite explosive manufactured by Eurenco) for ensuring the continuity of the pyrotechnic signal between the linear module (4a, 4b) and the angular module (la) after assembly. The base 11 and the cover 11 'constitute the armature 11 + 11' of the module 1a. These two parts are advantageously made of rigid plastic material. The bottom 13 of the base 11, facing the dihedral face of the hollow charges, 3a, 3b, is thinned or optionally openwork. The elements 2a, 2b are glued to the base 11, the cover 11 'is also bonded to said base 11. The length of the armature 11+ 11' exceeds that of the hollow load elements 2a, 2b (about 3 cm) with thinned walls 14 in order to be able to grip the rules 8 containing the segments 4 (see the previous paragraph). The cover 11 'and the base 11 have two slots 15a, 15b at the junction between the elements 2a, 2b of the connection module la and the segments 4. These slots 15a, 15b are intended to receive and stall the charges of explosive relay 12a, 12b. The explosive relays 12a, 12b are preferably in the form of triangular rods 16a, 16b, which can be housed in the dihedron of the hollow charges, 2a, 2b, having in their middle a flat portion 17a, 17b which can slide in the slots 15a, 15b. In the sophisticated version of the invention shown, a single point of initiation of the hollow charges is located on an element of a corner connection module. The angular module for initiation lb is shown in Figure 3B. It is in all respects similar to the module of FIG. 3A with, however, on its lid 11 ', a housing 18, able to receive a detonator 50. Said detonator 50 is placed at the end of a detonation line 51.

Said housing 18 comes to refer, preferably by gluing, to an opening 19 formed in the cover 11 ', vis-à-vis the rear face of a hollow load member (element 2a). The casing 5 of the hollow load element 2a is thinned opposite said housing 18 as shown by the counterbore 7 of FIG. 3B.

The kit of the invention may also comprise means for fixing the segments on the structure to be cut. Such means advantageously consist of flanges, as shown in FIGS. 4A, 4B (the variant) and 5A, 5B (2nd variant). Said flanges, 20a of FIGS. 4A, 4B and 20b of FIGS. 5A, 5B, are able to straddle segments 4, more advantageously rules 8 within which segments 4 are glued. Said flanges 20a and 20b have tabs 21 for attachment to the structure (wall, for example) to be cut. According to the variant shown, the fastening lugs 21 / structure to be cut is via an adhesive film 22 provided on the inner face of said lugs 21 and protected, before use of the flanges 20a, 20b, by a film 22 '. In FIGS. 4B and 5B, it can be seen that the adhesive film 22 (protected by the film 22 ') also intervenes to fix, stabilize said flanges 20a, 20b on the segment, the rule (= the segment, conditioned) that they are to ride. Said flanges 20a, 20b, during their use, are thus secured to the segments, rules that they bunch (by their internal face). This gives stability to the cutting device, attached to the structure to be cut. The flanges 20b according to Figures 5A and 5B have a shape slightly different from that of Figures 4A and 4B. They have a plane support 23. This is advantageously used for securing a mounted kit handling means (of the cutting device) (see Figures 7, 8A and 8B below). From the elements of a kit, as shown in FIGS. 1 to 5B, it is possible to construct a cutting device of the invention 100, as shown in FIG. 6. The assembly of the essential constituent means (segments , angle connection modules) of the device is made by a simple manual interlocking of the reinforcements 11 + 11 'of the connection modules 1a, 1b and rules 8 of the segments 4 (4a, 4b), with respect to the other 15 . The fixing means 20a and 20b are then nested and fixed to the linear modules (rules 8), by simple pressure through the adhesive film 22. In this preferred version, only a detonator is used to operate the device 100, its housing 18 is provided on the connection module lb. In Figure 7, the device 100 shown is equipped with a removable handling means 25, which can be docked by four arms 26 (aluminum tubulars, connected by welding, each provided with a sliding extension), provided in their ends of suction cups 27, on the segments 4 in their rule 8. In the advantageous variant shown, the stowage is made at the level of the flat supports 23 of the four flanges 20b. The securing of the suction cups 27 on the supports 23 is carried out, by pumping, via a pipe 28 passing through the arms 26 of the handling means 25. The pump 29, which pump can be manual, as shown in FIG. , is connected to the pipe 28 30 via a flexible pipe 30 and a check valve 31. The check valve 31 allows, after pumping, to disconnect the flexible pipe 30 (and thus the pump 29) while retaining the The handling means 25 has a vacuometer 32 for controlling the pressure in the pipework 28 and thus securing the stowage of said handling means 25.

At least one atmospheric pressure reset valve 33 is mounted on the pipe 28. It is closed for the pumping step. After securing, by pumping, the handling means 25 on the supports 23 of the flanges 20b, the flexible pipe 30 is disconnected from the nonreturn valve 31; the device 100 is then ready to be manipulated to be disposed on a wall 34 to be cut (see FIGS. 8A to 8C). FIG. 8A shows the device 100, provided with its handling means 25, which has just been adhered by applying the adhesive 22 of the lugs 21 of the flanges 20a, 20b to the wall 34. Said devices 100 and handling means 25 are still coupled. At this stage, the handling means 25 is then disengaged by re-atmospheric pressure of the pipe 28 (by opening the valves 33 of atmospheric pressure). The handling means 25 is thus uncoupled from the device 100. FIG. 8B illustrates this uncoupling phase of said handling means 25 of said device 100. The detonator 50 and the detonation line 51 may in particular be connected to the device 100 ("by intermediate "housing 18, provided for this purpose on the initiation connection module lb), or after stowing the handling means 25 on the device 24 (Figure 7), the assembly is then transported and disposed on the wall 34 to be cut (FIG. 8A), or after having placed the device 100 on said wall 34 (FIG. 8A) and removed the handling means (FIG. 8B). The connection of the detonation line 51 to the detonation control unit (not shown) is the last step before the operation of the device 100. The detonation of the device 100 is controlled by this control box. The control is transmitted via the detonation line 51 to the detonator 50, which detonates the hollow charge member 2a of the corner connection module 1b opposite the detonator 50. The detonation then propagates to the others. hollow charges 2b, 3 of the device 100 via the contiguous explosive faces of these hollow charges and by the explosive relay charges 12a, 12b. The propagation of the detonation in the device 100 of the invention is carried out at a speed typically of 7000 m / s; the cut of the wall 34 is thus made almost instantaneously around the periphery of said device 100. FIG. 8C shows the shape of a wall cutout 34 with the device 100. Said cutout (passage or opening) 35 is sharp.

A device of the invention, of the type shown in FIGS. 6 to 8B, comprising approximately 50 g of explosive (RDX type) may, for example, be used to cut an opening of 0.7 mx 1.1 m. in: a double-glazed window-type structure (with PVC frame) comprising two panes each 4 mm thick, separated by a vacuum of 8 mm thick and protected by an aluminum shutter 10 cm from the window , or a partition type structure consisting of a 50 mm thick polyurethane plate protected on each side by a 13 mm thick plasterboard, or an 8 mm thick aluminum metal wall structure . With a mass of about 5 kg, the device with its handling means, as shown schematically in Figure 8A, can be manipulated with one hand. The weight of the handling means is approximately 1.6 kg.

Claims (20)

A kit (10) for mounting a pyrotechnic cutting device (100), comprising the following essential components: - at least two dihedral linear hollow charge segments (4a, 4b); and at least one corner connection module (1a, 1b) of at least two dihedral linear hollow charge segments; said at least one module (1a, 1b) being constituted of at least two dihedral linear hollow charge elements (2a, 2b), arranged in a contiguous manner at their end (s) with contact of their respective load (3a , 3b). 2. Kit (10) according to claim 1, wherein the respective charges (3a, 3b) of the elements (2a, 2b) contiguous of each corner connection module (la, lb) are in contact at the face (6a). , 6b) of said beveled elements (2a, 2b). 3. Kit (10) according to claim 1 or 2, further comprising explosive relays (12a, 12b) to be arranged on the non-adjoining faces (6`a, 6'b) of the elements (2a, 2b) of said at least one corner connection module (1a, 1b). 4. Kit (10) according to any one of claims 1 to 3, wherein said at least one connecting module (la, lb) is arranged, stably, in a frame (11 + 11 '). A kit (10) according to any one of claims 1 to 4, wherein each of said dihedral linear hollow charge segments (4a, 4b) is stably arranged in a hollow rule (8). 6. Kit (10) according to claims 4 and 5, characterized in that at least one of the ends of said hollow rulers (8) is adapted to be secured to the ends of said armature (11 + 11 ') of a module corner connection (1a, 1b); the fastening in question involving direct contact with the charges (3,3a and 3,3b) or via an explosive relay (12a, 12b). 7. Kit (10) according to claim 4 or 6, including said connection module (Ib) or at least one (1b) of said connection modules (la, lb), advantageously only one (1b) of said modules ( 1a, 1b) is arranged in an armature (11 + 11 ') which comprises a housing (18) for receiving a detonator (50). 8. Kit (10) according to any one of claims 1 to 7, further comprising at least one detonation initiation device (50 + 51) and / or securing means (20a, 20b) segments ( 4a, 4b) on the cutting structure (34). 9. Kit (10) according to any one of claims 1 to 8, further comprising fixing means (20a, 20b) segments (4a, 4b) on the structure to be cut (34), adapted to be secured to said segments (4a, 4b). The kit (10) of claim 9, further comprising a handling means (25) for the assembled kit or cutting device (100); said handling means (25) advantageously having arms (26), preferably having an adjustable length, provided at their free end with means for temporarily securing (27) said arms (26) to at least some (20b) of said fixing means (20a, 20b) of the segments (4a, 4b) on the structure to be cut (34), able to be secured to said segments (4a, 4b). 11. Kit (10) according to claim 10, wherein said handling means (25) has arms (26) provided at their free end with suckers (27). 12. Kit (10) according to claim 11, further comprising first means (29) for ensuring, by depression, the adhesion of said suction cups (27) to fixing means (20b) segments (4a, 4b) to the structure (34) to be cut, adapted to be secured to said segments (4a, 4b) and second means (33) to ensure, by putting at atmospheric pressure, the separation of said suction cups (27) of said fixing means (20b) . Angle connection module (1a, 1b) of at least two dihedral linear hollow charge segments (4a, 4b) consisting of at least two dihedral linear load elements (2a, 2b), arranged adjacently at their end (s) with contact of their respective load (3a, 3b). 14. pyrotechnic cutting device (100), characterized in that it comprises the constituent elements of a kit according to any one of claims 1 to 9 assembled according to a structure in which the hollow linear dihedral charge segments ( 4a, 4b) are connected, at least in pairs, by an angle connection module (1a, 1b), with direct contact of the loads (3, 3a and 3b) of said segments (4a, 4b) and module corner connection (la, lb) or via an explosive relay (12a, 12b). 15. Device (100) according to claim 14, characterized in that said segments (4a, 4b) and connection module (s) angle (la, lb) connected form a flat polygon. 16. Device (100) according to claim 14 or 15, characterized in that said segments (4a, 4b) are arranged, stably, in a hollow rule (8); In that the said connection module (s) (1a, 1b) is (are) stably arranged in an armature (11 + 11 '); and in that the ends of said rulers and reinforcement (s) are suitable for joining, advantageously by interlocking, with direct contact of the loads (3,3a and 3,3b) or via explosive relays (12a, 12b). 15 17. Device (100) according to any one of claims 14 to 16, characterized in that said structure comprises at least one detonation initiation device (50 + 51). 18. Device (100) according to any one of claims 14 to 17, characterized in that said structure comprises fastening means (20a, 20b) segments (4a, 4b) on the structure to be cut (34), advantageously secured to said segments (4a, 4b). 19. A method of producing a pyrotechnic cutting device (100) according to any one of claims 14 to 18, characterized in that it comprises mounting the constituent elements of a kit according to any one of Claims 1 to 9. 20. pyrotechnic method for cutting a structure (34), characterized in that it comprises: a) the development of a pyrotechnic cutting device (100) according to claim 19; said device including or not including at least one detonation initiation device (50 + 51); b) securing said device (100) to a handling means (25) thereof; c) the positioning and possible fixing of said device (100) on the structure to be cut (34) with the aid of said handling means (25), d) the possible installation of at least one initiation of the detonation (50 + 51) on said device (100) positioned and possibly fixed; e) the retraction of said handling means (25), said chip, when it takes place, and said retraction can be implemented in any order; f) detonation charges (2a, 2b, 3) via (s) said (s) at least one detonation initiation device (50 + 51).