FR3072771A1 - TRANSPORT, STORAGE AND / OR HANDLING UNIT FOR PYROTECHNIC PRODUCT - Google Patents

Abstract

The invention relates to a transport unit for storing and / or handling pyrotechnic products whose casing, for enclosing said pyrotechnic products, comprises a decompression device (10). Such a decompression device (10) makes it possible to preserve the integrity of the envelope of said container during spontaneous combustion of said pyrotechnic products.

Description

Transport, storage and / or handling unit for pyrotechnic product

The invention relates to the field of transport, storage and / or handling units for pyrotechnic products.

More particularly, the invention relates to freight containers, also called "containers", arranged to transport, store and / or handle pyrotechnic products.

In the rest of the document, we mean by “container” or “container”, also qualified as “transport, storage and / or handling unit”, a box of substantially parallelepiped shape, of standardized size, generally but not limited to metallic, and designed for the transport, storage and / or handling of objects, such as for example pyrotechnic articles. For the purposes of the invention and throughout the document, the term “pyrotechnic article” means any object comprising a pyrotechnic product or an energetic material, also qualified as an explosive.

Pyrotechnic products, also qualified as “explosive products”, are generally composed of substances or mixtures of substances, the combustion of which is carried out without the participation of dioxygen present in the air. By way of nonlimiting examples, such pyrotechnic products may consist, partially or entirely, of one or more explosives classified with respect to a well known reference, trinitrotoluene, more commonly known by the abbreviation "TNT", or still mixtures of powders and chemical components for fireworks, generally capable of providing by their combustions special effects, advantageously perceptible by the human eye, simple or made up of different colors and / or compositions, such as lights, smoke or sound effects.

The combustion of said products can cause an explosion, that is to say a chemical reaction of said products accompanied by a significant release of energy in a very short time. When the speed of propagation of a combustion is lower than the speed of propagation of sound waves, commonly called the speed of sound, ie several hundred meters per second, said combustion is generally called "deflagration". On the contrary, when it is greater than the speed of sound, said combustion is commonly called “detonation” and the speed of propagation of the combustion can reach up to several thousand meters per second.

The release of energy, created during an explosion or detonation, can cause a rapid expansion of gas, heat and / or noise. A detonation is generally accompanied by a shock wave, that is to say a reversible disturbance of the local physical properties of the propagation medium. Such a detonation may also be associated with projections of the primary type, such as projections of the respective envelope (s) of the pyrotechnic product or products or projections of the secondary type, such as projections of the surrounding materials of said pyrotechnic products. The propagation of the shock wave is generally called the explosion blast or "overpressure". Are metastable, as a result of an involuntary event, such as mechanical, friction, static, and / or

Furthermore, can be incorporated in addition, that is to say an increase in such pyrotechnic products that they can react to the exterior voluntarily or as examples a shock discharge of electricity of temperature.

pyrotechnic products pyrotechnic articles in and participate in the operation of these. Said pyrotechnic products are thus contained in numerous articles from various fields, such as, for example, fireworks from events, firearms cartridges and / or shells from armaments, flares and distress flames from maritime safety, airbags and / or ejection seats from cars and aeronautics, etc. Said articles then constitute a pregnant envelope of pyrotechnic products. In the rest of the document and within the meaning of the invention, the term "envelope" means any pyrotechnic article as defined above, but also any object or any enclosure that may contain or contain pyrotechnic products, such as by way of examples non-limiting, a box, a container or a building.

When the pyrotechnic products are surrounded by a hermetic envelope, the release of energy caused during combustion of said pyrotechnic products can cause a sudden increase in the pressure within said envelope. The latter, under such pressure can thus yield, fracture, fragment and / or explode violently, then projecting all around it many fragments and / or debris. Such projection of debris can ultimately damage nearby objects and / or elements, or even in some cases, injure individuals in a surrounding area. The transport, storage and handling of pyrotechnic products are, for this reason in particular, generally subject to state regulations, aimed at preventing accidents linked to an involuntary ignition of the combustion of pyrotechnic products.

During their transportation to their place of use, for example, pyrotechnic products can undergo various events that can alter their stability and initiate spontaneous combustion. By way of nonlimiting examples, the temperature within an envelope containing pyrotechnic products can increase sharply after prolonged exposure to the sun or, on the contrary, sharply decrease for example at night. The temperature within the envelope, and therefore the atmosphere around the pyrotechnic products, can consequently vary greatly. Said pyrotechnic products thus stored can degrade, or even initiate, then causing a chain reaction, sometimes leading to the explosion of their packaging envelope. In addition, during their transport, the containers can be transported by sea, river, rail, air and / or road, involving numerous loading and / or unloading of said containers within different means of transport. During these loading and / or unloading, shocks and / or jolts produced on or within the containers can create a disturbance within said containers if all the containers are not properly stowed and thus initiate combustion pyrotechnic products, damaging any packaging containing pyrotechnic products, or even said pyrotechnic products directly, then preventing their use.

Thus, the combustion and / or alteration of pyrotechnic products can be a function of many factors, such as by way of nonlimiting examples, of conditions linked to the transport of said products, of weather conditions and / or of any other element capable of alter the stability of said products.

To overcome the aforementioned drawbacks, freight containers have advantageously been arranged for transporting and storing pyrotechnic products. The floor, the walls, the ceiling and the doors of said containers, thus constituting an envelope within which pyrotechnic products can be stored, are covered with thermal insulation, in order in particular to limit the temperature variations within said containers. Such containers also cooperate with sensors for preventing the risk of alteration and / or initiation of combustion, such as, by way of nonlimiting examples, hygrometric sensors and / or temperature sensors. In the event of risks, such risks being defined by determined thresholds, said sensors can warn an operator being nearby, by setting off for example an audible alarm, and / or a remote operator, by sending him for example a message of alarm. To limit the risks linked to priming of pyrotechnic products, by a discharge of static electricity and / or by electromagnetic radiation, such containers can cooperate with a system making it possible to evacuate static electricity via an earthing. To protect surrounding objects and individuals in the vicinity of said containers, during spontaneous priming of said pyrotechnic products, said containers are generally made airtight.

The walls, doors, floor and ceiling of said containers are then reinforced by metal walls and / or concrete formwork, in order to increase the strength of the structure of such containers and avoid bursting and / or fragmentation. of the envelope. Everything is done to ensure that any explosions are contained within said containers.

These structural improvements prove to be insufficient, however. Indeed, as already mentioned, under the influence of a sudden increase in pressure induced by combustion of deflagration or detonation type, the structure of the containers can yield, fracture, fragment and / or explode violently , thus projecting all around them numerous fragments and / or debris capable of damaging surrounding objects and / or elements, or even in some cases, injuring individuals nearby. The amount of said debris is further increased by the presence of an additional amount of material due to the formwork and / or the metal reinforcements. In addition, such a reinforcement or formwork of the container structure considerably increases the said container or containers and considerably reduces the internal volume available for storing pyrotechnic products, said containers meeting strict sizing standards. Finally, the addition of additional materials in order to reinforce the structure of the said container or containers also proves to be expensive.

The invention makes it possible to respond to all or part of the drawbacks raised by the known solutions.

Among the many advantages provided by the invention, we can mention that a unit for transporting, storing and / or handling pyrotechnic products in accordance with the invention makes it possible to preserve the integrity of said unit in the event of possible priming. combustion of pyrotechnic products present within it, thus avoiding the projection of fragments and / or debris, which can then damage objects and / or injure individuals near such a unit.

The accidental or unexpected combustion of pyrotechnic products can possibly lead to the production of flames. A unit for transporting, storing and / or handling pyrotechnic products in accordance with the invention, in particular thanks to an advantageously structured and insulated envelope, also makes it possible to contain and limit the propagation of possible flames within a such unity. Indeed, the envelope of said unit according to the invention.

Furthermore, a unit for transporting, storing and / or handling pyrotechnic products in accordance with the invention is generally inexpensive in comparison with the units currently used, since such a unit in accordance with the invention does not require the addition of additional material to solidify the envelope and / or to guarantee its integrity. Thus, the internal volume available for storing pyrotechnic products and the mass of said unit are advantageously optimized, the envelope of such a unit remaining substantially similar, or even identical, to that of a transport, storage and / or handling conventional pyrotechnic products.

Also, a transport, storage and / or handling unit in accordance with the invention makes it possible to transport by sea, land, air and / or rail pyrotechnic products, or more generally explosive materials and objects:

- being sensitive to an overpressure or more generally inducing a risk of mass explosion, such as, for example, materials or objects containing an explosive, for example TNT;

- being likely to start a fire with a slight breath or some projections without risk of mass explosion, such as by way of nonlimiting example of fireworks or propellant powders.

presenting only a minor danger in the event of ignition or initiation during transport, such as safety fuses, initiators, airbags and cartridges of firearms for example;

For the purposes of the invention and throughout the document, the term "mass explosion" or "overpressure" means any explosion almost instantaneously affecting almost all of a load of pyrotechnic products, or more generally of materials and Explosive objects present in a transport, storage and / or handling unit for pyrotechnic products. Such pyrotechnic products, or more generally such explosive objects or materials, are, respectively and by way of nonlimiting examples, defined in France by the Divisions of

Risks 1.1, 1.2, 1.3 and 1.4 of the UN classification of dangerous goods.

To this end, provision is made in particular for a transport, storage and / or handling unit for pyrotechnic products, comprising an envelope for enclosing said products. To preserve the integrity of said envelope, during the combustion of said pyrotechnic products therein, such a transport, storage and / or handling unit comprises a pressure relief device comprising a cover and cooperating with said envelope, said cover being arranged to rise when there is a surplus of energy within said envelope and thus create an opening in said envelope.

To limit the projection of debris during a possible excess pressure, or even a fracturing, of a transport, storage and / or handling unit in accordance with the invention, the decompression device of said transport unit, storage and / or handling may include a grid extending over the entire opening.

Preferably but not limited to, to preserve as much as possible the integrity of a transport, storage and / or handling unit according to the invention, the latter may include a pressure relief device comprising a second second cover and cooperating with the envelope, said second cover being arranged to lift when there is a surplus of energy within said envelope and thus create a second opening in said envelope.

As a variant or in addition, in order to regulate the temperature within the envelope of a transport, storage and / or handling unit in accordance with the invention, the latter may include a ventilation device integrated within the envelope.

Furthermore, advantageously but not limiting, in order to limit the temperature variations within its envelope, a transport, storage and / or handling unit in accordance with the invention can cooperate with a thermal insulator cooperating with all or part of its envelope.

In the absence of excess energy created by the combustion of pyrotechnic products, to avoid the intrusion of objects, liquids or people into a transport, storage and / or proper handling unit in the invention, the device for decompressing the latter may include a means for locking the cover cooperating with said cover.

Preferably but not limited to, in order to allow the cover to give way in the presence of heat, the locking means of the decompression device of a transport, storage and / or handling unit according to the invention may consist of a hot-melt material.

Other characteristics and advantages will appear more clearly on reading the description which follows, relating to an exemplary embodiment given by way of non-limiting indication and to the examination of the accompanying figures, among which:

- Figure 1 describes a preferred embodiment but not limiting of a transport unit, storage and / or handling of pyrotechnic products according to the invention;

- Figures 2a and 2b, as well as 3a and 3b respectively describe first and second advantageous but non-limiting exemplary embodiments of devices for decompressing a unit for transport, storage and / or handling of pyrotechnic products in accordance with invention.

As an example of a preferred but non-limiting application, the invention will be described through a transport, storage and handling unit, such as a container 20. The invention cannot however be limited to this. only example of realization. As a variant, the invention could be transposed to a sedentary storage unit.

FIG. 1 illustrates an advantageous but nonlimiting exemplary embodiment of a transport, storage and / or handling unit for pyrotechnic products according to the invention, such as, by way of nonlimiting example, a container for about twenty feet.

Such a unit in the form of a container

0 is generally of substantially parallelepiped or cubic shape. Said container 20 is composed of a lower structure 21 facing an upper structure 22, a rear structure 23b facing a front structure 24, said front structure 24 generally being composed of an opening with two leaves or leaves allowing generally to access said container 20, and two lateral structures 23 facing each other and connecting the rear structure 23b to the front structure 24. Said structures 21, 22, 23, 23b and 24, also qualified as "faces", can be , for example, composed of one or more sheets of corrugated steel, the respective ends of which are welded to a frame composed of longitudinal members 26, corresponding to the edges of the parallelepiped, connected by welding or riveting to corner pieces 25, called “corner ISO ”, forming the vertices of said parallelepiped. Such corner pieces 25 generally and respectively consist of cubes drilled in three places, so that the container 20 can be stowed on different supports, such as for example the ground or, during transport, a second container . Said beams 26 and corner pieces are generally made of steel. In addition, the two leaves or leaves of the front structure 24 are advantageously articulated with respect to the chassis in a pivot connection, by means, for example, of one or more hinges. Each contour of said leaves or leaves may also include an air and water seal. The lower structure 21 is also composed of crosspieces 27 cooperating with the chassis, for example by capable of materializing welding or by any other means a mechanical connection of the embedding type. The inner surface of said lower structure 21 can also be covered with wooden and / or aluminum boards, in order to provide an internal floor suitable for operating the container.

For purposes of simplification, we will call, in the remainder of the document, “envelope” the assembly formed by the lower structure 21, the upper structure

22, the rear structure 23b, the front structure 24 and lateral structures of said container.

Preferably but not limited to, the sheet or more generally the materials constituting the storage, transport and / or

The handling envelope according to the invention may have a thickness of one thousand two hundred microns (1.2 mm).

To ensure a substantially constant temperature within the envelope of a container 20 according to the invention, the invention provides that such a container 20 may include a thermal insulator 50, said insulator 50 advantageously cooperating with the envelope of said container 20. Such an insulator 50 can be applied to the internal wall of the envelope, as shown in FIG. 1. As a variant, said insulator 50 can be applied to the outside of said container 20, on all or part of the envelope, as advantageously but not limited to, on the upper structure 22, the rear and front structures 23b and 24 and / or the lateral structures 23.

Such a thermal insulator 50 may consist, by way of nonlimiting example, of rock wool, optionally in the form of one or more panels forty to one hundred and twenty millimeters thick, or of any other insulating material and preferably but not limited to fire resistance. The temperature within a container positioned in the open sky mainly increasing by the action of solar radiation on the upper structure 22 of said container 20, said upper structure 22 can cooperate with or include one or more insulating panels of one hundred and twenty millimeters of thickness. As a variant or in addition, the thermal insulator 50 may further comprise or consist of an athermic paint applied to the external wall of all or part of the envelope of a container 20 according to the invention, and this, in particular to reflect the infrared rays emitted by the sun on said envelope. Furthermore, according to another alternative embodiment, the thermal insulator 50 of a container 20 according to the invention can an anti-heat blanket made and / or made, for example, from silicate, cooperating advantageously with all or part of the envelope of said container 20.

Touj ours according to the invention, as a variant or in addition, to allow temperature regulation within a container 20 conforming

1 invention, the latter may also include a ventilation device 40 located, preferably but not limited to, in the rear structure 23b, the front structure 24 and / or the side structures 23 of said container 20. Such a ventilation device 40 may, for example, include one or more flaps or orientable blades rotatably mounted, independently or linked, on a chassis. According to another exemplary embodiment, in addition, such a ventilation device 40 can advantageously be motorized, the rotation or more generally of the flaps or blades making up said ventilation device 40 being actuated automatically.

One of the main aims of the invention is in particular to preserve the integrity of the envelope of a container 20 according to the invention, during a possible combustion of pyrotechnic products stored within said envelope. To do this, a container 20 according to the invention, or more particularly the envelope of the latter, comprises a decompression device 10. Indeed, as described above, a combustion of pyrotechnic products creates an energy release, including the action on the inner wall of the envelope of a conventional container, fragmentation of the said can cause the fracture or the envelope. Such a fracture or fragmentation can then lead to the rupture of such an envelope and ultimately a projection of fragments or debris which can damage objects or elements, or even injure individuals, located near the container.

The decompression device 10 of a container according to the invention thus makes it possible to evacuate a surplus of energy produced by such combustion, thereby reducing the pressure exerted on the internal wall of the envelope of the container 20, and thus preventing a fracturing of it.

For the purposes of the invention and throughout the document, the term "pressure" means any force applied to the internal surface of the envelope of a container 20 according to the invention by the release of energy produced during combustion of pyrotechnic products within said envelope. Such force or pressure is substantially normal to the surface of the envelope, as shown in Figure 1 by bold arrows. Still within the meaning of the invention and throughout the document, the term "excess energy" means any excess of the normal force on the internal surface of the envelope which can cause it to rupture.

FIGS. 2a and 2b, as well as 3a and 3b respectively describe first and second advantageous but nonlimiting exemplary embodiments of devices for decompressing a transport, storage and / or handling unit of pyrotechnic products or of a container 20 according to the invention. As already mentioned, a container 20 according to the invention, also qualified as a transport, storage and / or handling unit for pyrotechnic products, includes an envelope for enclosing said products. Such a container 20 then comprises a decompression device 10 comprising a cover 13, said decompression device 10 advantageously cooperating with said envelope according to a suitable mechanical connection. The invention cannot however be limited to this single example of arrangement. Indeed, the invention provides that the pressure relief device 10 and the cover 13 can form a single entity. Within the meaning of the invention and throughout the document, the term "cover" means any object or any movable part making it possible to close an opening of a device, thus making it possible to close it. Within the meaning of the invention and throughout the document, such a cover may be included within a discharge hatch. Due to its mobility and its clever arrangement, said cover is designed to lift when there is a surplus of energy within said envelope and thus create an opening Op in said envelope, thus allowing the release of energy, while reducing the risk of overpressure and explosion.

According to a first embodiment of a decompression device 10 of a container 20 according to the invention described in connection with Figures 2a and 2b, such a decompression device 10 comprises a frame

11, cooperating for example with the upper structure 22 of said container 20 according to a suitable mechanical connection, such as by way of nonlimiting example, a connection of the embedding type. However, the invention cannot be limited to this single arrangement or type of configuration. Alternatively, the frame 11 of the decompression device 10 is directly integrated into the upper structure 22 of the envelope of said container 20, the envelope and the decompression device 10 thus forming only one and the same physical entity. Said compression device 10 further comprises a cover 13, cooperating with said frame according to a suitable mechanical connection. Still according to this first embodiment, an opening Op is advantageously made in the envelope of said container 20, the dimensions of said opening being advantageously and mutually adapted to those of the external wall of the frame 11. The cover 13 then makes it possible to conceal said opening Op, when such a cover 13 is placed facing the latter, such that

especially shown in Figure 2b. To this end, the lid 13 of the pressure relief device 10 can present any form adapted to ensure its function,

preferably but not limited to, a geometric shape, for example, advantageously, a square shape, in order to simplify the manufacture and installation of said cover 13. Similarly, the opening Op may have a shape similar to that presented by the cover, preferably but not limited to, a geometric shape, for example, advantageously, a square shape. When such cover 13 and opening Op have substantially square shapes, they can, by way of nonlimiting examples, be characterized by dimensions whose lengths and widths are respectively substantially equal to one meter twenty (1.2 meters) . The invention cannot however be limited to these shapes and dimensions mentioned above. As a variant, the cover 13 and the opening Op could have any other geometry, such as for example polyhedral, elliptical, etc.

As already mentioned, such a cover 13 can cooperate with the frame 11 by means of a suitable mechanical connection. By way of nonlimiting example, such a mechanical connection may advantageously consist of a pivot connection, preferably embodied by one or more hinges 14. The invention cannot however be limited to this single type of connection and / or this example only d structural arrangement: any means capable of ensuring a suitable mechanical connection could be used instead. Furthermore, in addition, in order to avoid the intrusion of individuals or objects into a container 20 according to the invention, the latter's pressure relief device 10 may include a locking means, in the form, for example , a hook system 15 and / or padlock 16, as shown in FIG. 2a, said hook system 15 and / or padlock 16 cooperating with the cover and making it possible to seal said container 20.

Figures 3a and 3b illustrate a second embodiment of the decompression device 10 of a container 20 according to the invention. According to this alternative embodiment, the cover 13 of the pressure relief device cooperates directly with the envelope of the container 20 according to a suitable mechanical connection. However, the invention cannot be limited to this single arrangement or type of configuration. As a variant, the cover 13 of the decompression device 10 is directly integrated into the upper structure 22 of the envelope of said container 20, the envelope and the decompression device 10 thus forming only one and the same physical entity. According to this second embodiment described in particular in connection with FIGS. 3a and 3b, the structural arrangements and the respective dimensions of the cover 13 and of the opening Op formed in the envelope are mutually arranged so that the cover 13 and the Op opening are then confused. By way of nonlimiting example, in accordance with the second embodiment described in connection with FIG. 3b, the cover 13 of the pressure relief device 10 can consist of a zone of weakness 18 determined within the envelope of a container 20 according to the invention, said zone of weakness 18 being arranged to give way during an excess of energy due to an overpressure following a combustion of pyrotechnic products within said envelope. By way of nonlimiting examples, such a determined zone of weakness 18 may have any shape adapted to perform the function, preferably but not limitatively, of geometric shape, for example, advantageously, a square shape. In order to define such a zone of weakness 18 and create a cover 13, part of said envelope, preferably but not limited to a part of the upper structure 22 of said envelope, can therefore be perforated on at least three of the four sides of such a square shape, during construction and before any use of a container 20 according to the invention. As a variant, still with the aim of defining such a zone of weakness 18 and creating a cover 13, part of said envelope, preferably but not limited to part of the upper structure 22 of said envelope, can be subjected to a chemical pretreatment means of a suitable acid solution, thus allowing the creation of a zone of weakness 18 defining the contour of said cover 13. Finally, according to another alternative embodiment allowing the definition of such a zone of weakness 18, the latter may consist replacing the material constituting the envelope with a material of lesser resistance along the perimeter of the defined geometric shape. The invention cannot however be limited to the examples mentioned above. Any other mechanical or chemical method allowing a cover 13 to cooperate with the envelope of a container according to the invention could be considered instead.

Furthermore, as already mentioned, in order to avoid the intrusion of individuals or objects into a container 20 according to the invention, the invention provides that the latter's pressure relief device 10 may include a locking means. Thus, according to the second embodiment of the decompression device described in connection with FIGS. 3a and 3b, said locking means consists of a hot-melt material, that is to say a material which melts under the effect of heat, such as non-limiting example tin. The ends of the cover 13 of such a pressure relief device can then be fixed to said envelope by means of such a hot-melt material. The invention cannot however be limited only to the examples of structural arrangements mentioned above. As a variant, any other locking means capable of ensuring an identical or similar function, in particular when the pyrotechnic products present within an envelope of a container 20 according to the invention may be used.

Furthermore, in addition, with the aim always of limiting the temperature variations within a container 20 according to the invention, the cover 13 of the pressure relief device of the latter can cooperate, on its internal and / or external walls. , with a thermal insulator, such as the thermal insulator 50 described above, like the rest of the envelope of said container 20.

Alternatively or additionally, in accordance with the figure

2a, a device for decompressing a container according to the invention may comprise a grid preferably covering the entire opening Op formed in the envelope of said container

20, in order to avoid the projection of debris created from objects present in

The envelope of said container

20, more particularly when a possible combustion of pyrotechnic products was started unexpectedly within said envelope. The dimensions and shape of such a grid 12 are advantageously arranged to cover the opening Op. By way of nonlimiting examples, such a grid 12 may consist of expanded metal, for example steel, or a set structured wires and / or cables such as a mesh. Furthermore, the grid 12, at its ends, can be welded, or fixed by any other means, to the envelope of the container 20. The invention cannot however be limited to the structural arrangement of such a grid or else the means used to ensure cooperation between the grid 12 and the envelope of a container 20 according to the invention.

Let us now study the operation of a container 20 according to the invention, more particularly of its decompression device 10, when combustion of pyrotechnic products is initiated within the envelope of said container 20.

During such combustion, the cover 13 of the decompression device of such a container 20 is intended to lift, or even to be partially or entirely dissociated from the envelope of said container 20, thus creating an opening Op in said envelope . Such dissociation occurs in particular when the pressure exerted on the internal walls of the envelope of the container 20, such pressure being due to the release of energy due to combustion is substantially equal to or less than the threshold for fracturing or fragmentation of said envelope. . Such a fracturing or fragmentation threshold is more particularly determined by the resistance of the material used for the manufacture of the envelope of a container 20 according to the invention, but also by the quality of the mechanical connections ensuring the cooperation of the structures constituting the envelope, for example welds, thus allowing the envelope to form a single intact entity. The excess energy is thus evacuated / released by said opening Op formed within the envelope, preventing said envelope from deforming and thus allowing the latter to remain intact. By releasing the excess energy through the opening Op, the pressure exerted on the internal walls of the envelope of a container 20 according to the invention thus remains below a theoretical limit, beyond which a dislocation of said container 20 can occur, thus avoiding any fragmentation of the envelope. Such a situation is notably represented by the first and second embodiments of the device for decompressing a container 20 conforming to FIGS. 2a and 3a.

Let us describe in more detail the operation of the second embodiment of the decompression device 10 described in connection in particular with FIGS. 3a and 3b. As already specified, in accordance with FIGS. 3a and 3b, the cover 13 of the pressure relief device 10 is fixed, or even sealed, to a part of the envelope of a container 20 according to the invention, by means a locking means mainly consisting of a hot-melt material. Generally, an increase in temperature precedes a deflagration, a detonation or a sudden increase in the internal pressure of the envelope. Such an increase in temperature results in a melting of all or part of the hot-melt material constituting the locking means, the latter yielding under the effect of the temperature and thus releasing the cover 13 of the decompression device 10. Thus, creating a zone of weakness 18 determined then makes it possible to create a determined zone of lower resistance to an energy release during a possible combustion of pyrotechnic products within the envelope of a container 20 according to the invention, thus allowing the creation of 'an opening Op made in one of the structures of the envelope. Such an opening Op finally ensures the maintenance of the pressure exerted on the internal walls of the envelope of said container 20 below a limit or a threshold of deformation or of potentially irreversible damage of said envelope.

The invention further provides that a container 20 according to the invention may include additional accessory elements.

Also, as a variant or in addition, according to a preferred but nonlimiting embodiment described in connection with the figure

1, a container according to the invention may also include a second opening

30, positioned, as advantageous but nonlimiting examples, in the rear structure 23b or in the lateral structures.

Preferably but not limited to, such a second opening can be arranged to allow the passage of a human being and, as such, have a substantially rectangular shape with respective dimensions of two meters ten in height by eighty centimeters in width. In order to allow restricted and / or secure access to a container according to the invention, said second opening can be obstructed by a door.

Optionally, such a door can consist of a door of the blown anti-panic type, that is to say that said door can open from

The interior of the envelope of said container 20 towards a panic bar and / or specific conditions determined.

the outside by means of opening when

During combustion of pyrotechnic products, the surplus energy can also and possibly through said second opening 30 if the decompression device is not sufficient to guarantee the integrity of the container 20, the door then acting like a second cover. or a second discharge surface. According to this advantageous embodiment, the door, such as the cover 13 described above, can be arranged to lift or more generally open when there is a surplus of energy within said envelope and thus create a second opening in said envelope of the container 20. Finally, as a variant or in addition, to avoid any unexpected propagation of flames as a result of combustion of pyrotechnic products present within the envelope of a container 20 according to the invention, such a door can also be arranged or adapted to be fire resistant for at least one hour.

As a variant or in addition, a container 20 in accordance with the invention may further comprise an earthing system, not shown in FIG. 1, connecting by an equipotential bonding all the parts and conductive elements of said container 20, such than metal parts for example. The use of such a grounding system is particularly advantageous, since it makes it possible to avoid any possible source of ignition which could lead to an unexpected combustion of pyrotechnic products present within the envelope of a container. 20 according to the invention. In addition, such an equipotential bonding can advantageously be connected to an electrical charge evacuation system, such as, for example, a conductive metal stake driven into the ground when such a container 20 is placed on said ground.

According to another alternative embodiment, in order to avoid the appearance of an electrostatic discharge in the vicinity of pyrotechnic products which can cause spontaneous initiation of such pyrotechnic products, for example, during the handling or handling of said products by a user, a container 20 according to the invention may include an antistatic system in the form, for example, of a conductive cord connecting said user to a system for discharging electrical charges via a terminal block. When a container 20 according to the invention simultaneously comprises a grounding system and an antistatic system, the respective electrical charge evacuation systems and associated with the two systems can possibly be combined and consist of a single entity physical. Also, as a variant or in addition, a container 20 according to the invention may comprise an extinguishing system adapted or arranged to extinguish any internal combustion which could take place spontaneously within the envelope of said container 20. Finally, to prevent any unexpected combustion within the envelope of a container 20 according to the invention, the latter may also include one or more combustion prevention sensors, such as a non-limiting example, a temperature sensor , which, when the temperature inside said container reaches a determined threshold, for example thirty degrees, triggers an alarm to warn an operator of the risk of triggering spontaneous next combustion. The invention cannot however be limited to this single type of sensor.

The invention has been described during its use in connection with a transport, storage and / or handling unit for pyrotechnic products. The invention cannot however be limited to the examples described above and could possibly be applied to a sedentary storage unit.

It could also be envisaged that a container or a unit for transporting, storing and / or handling pyrotechnic products could include and / or cooperate with a plurality of pressure relief devices distributed over different structures of the envelope, such as the lateral structures 23 for example, in order to distribute the discharge surface uniformly constituted by all of said 5 pressure relief devices.

Other modifications can be envisaged without departing from the scope of the present invention defined by the appended claims.

Claims (7)

1. Transport, storage and / or handling unit (20) of pyrotechnic products comprising an envelope for enclosing said products, said transport, storage and / or handling unit (20) being characterized in that it comprises a pressure relief device (10) comprising a cover (13) and cooperating with said envelope, said cover being arranged to lift when there is a surplus of energy within said envelope and thus create an opening (Op) in said envelope . 2. Transport, storage and / or handling unit (20) according to the preceding claim for which the decompression device (10) comprises a grid (12) extending over the entirety of said opening (Op). 3. Transport, storage and / or handling unit (20) according to any one of the preceding claims, comprising a second pressure relief device comprising a second cover and cooperating with the envelope, said second cover being arranged to lift. or open when there is a surplus of energy within said envelope and thus create a second opening in said envelope. 4. Transport, storage and / or handling unit (20) according to any one of the preceding claims, comprising a ventilation device (40) integrated within the envelope. 5. Transport, storage and / or handling unit (20) according to any one of the preceding claims, comprising a thermal insulator (50) cooperating with all or part of the envelope. 6. Transport, storage and / or handling unit (20) according to one any of the claims preceding, for which the device of decompression (10) includes a way of locking (15, 16, 18) of lid (13) cooperating with said lid (13) 7. Transport, storage and / or handling unit (20) according to claim 6, for which the locking means consists of a hot-melt material. 1/2