FR2973498A1 - INFLAMMATOR, PYROTECHNIC COMPONENT AND METHOD FOR PRODUCING SUCH PYROTECHNIC COMPONENT - Google Patents

Abstract

The subject of the invention is an igniter (1) comprising a cell (2) containing at least one pyrotechnic composition (3) and a means (4) for initiating the latter by electrical energy which is connected to at least two pins conductors (5a, 5b) leaving the cell (2). This electric igniter (1) is characterized in that each pin (5a, 5b) comprises at least one groove (10) which is intended to cooperate with a deformable sleeve integral with an electrical connector. The invention also relates to a pyrotechnic component implementing such an igniter and a method for manufacturing such a pyrotechnic component.

Description

The technical field of the invention is that of electrical igniters, pyrotechnic components and their manufacturing processes. It is known to produce pyrotechnic components comprising a cell containing several layers of pyrotechnic compositions. Generally there is provided an initiation layer which is in contact with an ignition means, for example a hot wire or a conductive layer (thin or thick) or a semiconductor bridge. This initiation layer is most often constituted by a layer of redox composition. The initiation layer is then covered by a layer of a composition providing the desired pyrotechnic effect. For example, it is possible to provide another layer of pyrotechnic composition for reinforcing the flame and producing an igniter. It may also provide a layer comprising a primary explosive and optionally a layer of a secondary explosive priming to achieve a detonator.

It is also possible to provide a layer of a gas-generating composition for producing a gas generator, for example for pyromechanical actuators. Concretely, the catalogs of the manufacturers of pyrotechnic components include various products (igniters, igniters, detonators, gas generators) which each fulfill a specific function. Each of these products has its own definition and it requires to be manufactured a specific process. This results in relatively large costs. The quantities produced for each component do not allow sufficient amortization of development costs and fixed manufacturing costs. It has been proposed by the patent application EP1995551 to produce a pyrotechnic component in a modular form by stacking in a bucket various washers of pyrotechnic materials. These washers are positioned on a base carrying initiation son. The choice of the number and nature of the washers used makes it possible to produce a particular type of initiator. However the modularity of this component remains insufficient. In particular the non-pyrotechnic input stage and carrying the pins (which is defined in three different versions) must be secured to a primary pyrotechnic composition before final assembly of the component. The washers of pyrotechnic materials must also be made integral with each other with a filling material. The object of the invention is to provide a reduced-size igniter having well-defined pyrotechnic properties which can be compatible with most pyrotechnic requirements. This electric igniter constitutes a pyrotechnic component in itself, and it will form the common base brick around which can be made, in a modular manner, different types of pyrotechnic components. At the level of the definition of this brick will focus the essential characteristics such as sensitivity, protection against electrostatic discharges and electromagnetic radiation, hermeticity and connectivity interface. The components according to the invention will use this pyrotechnic brick associated with other components that will depend on the desired pyrotechnic effect for the final component. The assembly method according to the invention will make it possible to implement the modularity by ensuring a simple and fast assembly of any type of pyrotechnic component. The delicate pyrotechnic operations will be concentrated at the level of the brick constituted by the base igniter. This igniter can be manufactured in large quantities and at a lower cost because it is common to all other components of the catalog.

Thus, the subject of the invention is an igniter comprising a cavity containing at least one pyrotechnic composition and a means for initiating it by electrical energy which is connected to at least two conductive pins coming out of the cell, an igniter characterized in that each pin comprises at least one groove which is intended to cooperate with a deformable socket integral with an electrical connector. Advantageously, the cell will be closed by at least one flap made of flexible plastic material.

At least one of the pins may comprise a machining which will be arranged facing a metal bottom of the cell so as to form a zone promoting the flow of electrostatic discharges. The pyrotechnic composition may be selected from the following compositions Zirconium / potassium perchlorate, Zirconium boron / potassium nitrate. The mass of this pyrotechnic composition will preferably be between 30 milligrams and 50 milligrams. This igniter is the basic brick for designing modular pyrotechnic components. The invention therefore also relates to a pyrotechnic component comprising such an igniter and which is attached to an electrical connector. According to a particular embodiment, the igniter is housed in a housing, the housing also containing at least one pyrotechnic output stage disposed in the vicinity of the igniter.

The output stage may be an igniter relay comprising a bucket containing at least one pyrotechnic composition. The output stage may be a detonator relay 5 comprising a bucket containing at least one explosive composition. The output stage may be a gas generator comprising a bucket containing at least one propellant powder or a black powder. The housing may be closed at its rear by a screwed cap, so as to make a removable component. The housing can be crimped at its rear part on the connector, so as to make a component unmountable. The invention finally also relates to a method of manufacturing a pyrotechnic component, characterized by the following steps: - an igniter is produced comprising a cell containing at least one pyrotechnic composition and a means of initiation thereof by electrical energy which is connected to at least two conductive pins coming out of the cell, each pin having at least one groove which is intended to cooperate with a deformable socket integral with an electrical connector, - the igniter is secured with a connector, 25 - is placed in a housing at least one pyrotechnic output stage, the igniter and the housing is housed in the housing, the igniter being positioned in the vicinity of the pyrotechnic output stage, 30 - the housing is closed . 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 longitudinal sectional view of an igniter according to the invention FIG. 2 is an enlarged detail view of an area of the igniter for better channeling, by spike effect, the electrostatic discharges between the body and the pins; FIG. 3 is a schematic detail view of FIG. the cooperation between a pin and a socket of a connector, - Figure 4 is a partial longitudinal sectional view of an igniter according to the invention connected to a connector, - Figure 5 is a partial longitudinal sectional view of a first exemplary embodiment of a pyrotechnic component according to the invention, - Figure 6 is a partial longitudinal sectional view of a second embodiment of a pyrotechnic component according to the invention, - the Figure 7 shows a bucket containing another type of composition.

Referring to Figure 1, an igniter 1 according to the invention comprises a metal cell 2 which contains a pyrotechnic composition 3 and an initiation means 4 thereof. The initiation means 4 is a known means using the electrical energy, for example a resistive wire which will be heated by an electric current. Other electrical initiation means could be envisaged, for example a semiconductor bridge or a conductive layer (thin layer made by metal deposition or thick layer obtained by screen-printing).

The initiating means 4 are connected to at least two conductive pins 5a and 5b which leave the cell 2 through a rear opening 2a made in a bottom 2b of the cell 2.

The pins 5a and 5b are embedded in an insulating pad 6, made of plastic material made of glass or ceramic. FIG. 1 shows a rear washer 7 and a closing flap 9 which are also made of an electrically insulating plastic material, for example polytetrafluoroethylene (better known under the trademark Teflon). This washer and this paillet have the function of ensuring the hermeticity of the igniter. A plastics material (for example polytetrafluoroethylene, or rubber or a rubber derivative) is a flexible material which makes it possible to maintain the pyrotechnic composition 3 in compression and also ensures the hermetic integrity of the igniter 1. to avoid, during operation, the metal projections downstream of the component which is required in certain applications (thermal batteries for example). The washer 7 may be replaced by a sheet bearing a bore for each pin 5a, 5b. A plastic skirt 8 caps the insulating pad 6 and defines a cylindrical volume that can receive the pyrotechnic composition 3. The cell 2 is crimped (annular area S) on the flake 9. Note in Figure 1 that each spindle 5a and 5b has a groove 10 in the vicinity of its free end.

Figure 3 shows the cooperation of a pin 5a or 5b with a metal sleeve 11 which has a front portion formed for example of two flexible tongues 11.1 and 11.2. The sleeve 11 is incorporated in a conductive cylinder 12 which is itself secured to a connector 13 (not shown in detail in the figures). The free ends of the pins 5a and 5b comprise a spherical tip 14a, 14b which, during the establishment of the pin in the sleeve 11, pushes the deformable front portion thereof. Tabs 11.1 and 11.2 of this part deviate and are housed by elasticity in the groove 10, prohibiting further extraction of the pin 5a, 5b. Such an arrangement makes it possible to make the igniter 1 completely integral with its connector 13.

Note in Figure 1 that the pins 5a and 5b have a length exiting the cell 2 which is reduced compared to that which is usual in conventional components. Such an arrangement promotes the compactness of the igniter 1 which also has the smallest possible dimensions. The presence of the grooves 10 on the pins 5a, 5b allows the reliable and definitive connection of the igniter to a connector 13, which facilitates the subsequent integration of the component.

The pyrotechnic composition 3 is a redox type initiation composition. For example, it is possible to use a conventional composition of the Zirconium (60% by weight) / potassium perchlorate (40% by weight) type or (percentages by total mass of the composition). Zirconium (60%) / Boron (12%) %) / potassium nitrate (28%) or any other type of composition by favoring the use of pyrotechnic compositions not containing carcinogenic, mutagenic or reproductive harm materials (so-called CMR materials).

The mass of the pyrotechnic composition 3 used will be between 30 milligrams and 50 milligrams. The igniter 1 is thus a pyrotechnic component of very small dimensions and incorporating the minimum amount of pyrotechnic composition capable of generating a usable effect. Concretely with such a mass of composition it will be possible to realize an igniter of diameter less than 6 mm and length less than 12 mm, pins included.

The goal is to achieve a size igniter similar to the pyrotechnic "beading" used in the field of mines and quarries, but having all the security features of a military component. The pyrotechnic ignition beads generally comprise an oxido-reducing pyrotechnic composition which is deposited by dipping on a conductive filament. They have the disadvantage of being very sensitive and fragile because they are not encapsulated. Their integration for other applications than mines and quarries is difficult because the component's security is insufficient. The igniter according to the invention uses a pyrotechnic composition which is protected by the metal cell 2, the straw 9 and the washer 7, against shocks and humidity. It also incorporates means ensuring its protection against electrostatic discharges and electromagnetic radiation. The initiation level of this igniter is calibrated by the definition of the initiation means 4. It is possible to realize a small size igniter that satisfies the most severe regulatory constraints, and in particular the level of safety 1 Ampere / 1 Watt provided by military standard MIL DTL 23659. Note in Figure 1 that the pin 5b also has a second groove 14 which is arranged opposite the bottom 2b of the cell 2. This detail is more particularly visible in Figure 2 The acute profiles of the edges of the groove 14 are close to the rim of the opening 2a. A zone 15 is thus formed which makes it possible to better channel the electrostatic discharges by the effect of spikes. Such an arrangement is a means of improving the resistance of the igniter 1 to severe electrostatic environments.

As an alternative to the groove 14, it will be possible to use on the spindle 5b other machining operations promoting electrostatic discharge towards the cell 2: collar, indentations, knurling, etc.

Any electrostatic discharge occurs at the zone 15, which prevents breakdown through the pyrotechnic composition 3 and prevents inadvertent tripping of the igniter 1. The assembly of the igniter 1 is done in the manner Next: An initiation means 4 is fixed on the stud 6 and between the pins 5a, 5b. Place a stud 6 carrying the pins 5a, 5b in a cell 2, with the interposition of the rear washer 7. The skirt 8 is positioned on the stud 6, which defines a cavity for the pyrotechnic composition 3. It is dose and The pyrotechnic composition 3 is compressed into this cavity. The flap 9 is positioned and the cell 2 is crimped. This assembly is automatable, which allows the production of large quantities of igniters at a moderate cost. The igniter 1 according to the invention is the basic brick which allows the simplified and modular manufacture of many types of pyrotechnic components. Figure 4 shows an igniter 1 permanently attached to a connector 13 connected to flexible son 16a, 16b. The connector 13 can integrate multiple son variants (length, nature, color ...). Such an assembly already constitutes a basic pyrotechnic component, secure and of reduced size, which is likely to be used in various applications (thermal batteries, missile equipment ...).

FIG. 5 shows another embodiment of a pyrotechnic component 17 according to the invention. In this mode, the igniter 1 attached to the electrical connector 13 is housed in a cylindrical housing 18, metal or plastic. The housing 18 also contains at least one pyrotechnic output stage 19 which is arranged in the vicinity of the igniter 1. The distance between the igniter 1 and the output stage 19 is regulated by means of a spacer washer 10 20. The output stage 19 will be defined according to the desired effect and this stage will be free of CMR materials. The output stage 19 may for example be a detonator relay comprising a bucket 21 containing a primary explosive and (optionally) a secondary explosive boot. As shown in FIG. 5, the bucket 21 encloses a primary explosive layer 22 (eg, silver azide) and a secondary explosive priming layer 23 (eg, hexogen). The pyrotechnic component thus formed is an electric detonator. The detonation relay 19 comprises a primary explosive layer 22 which, excited by the flame of the igniter, takes the detonation regime and initiates the secondary explosive 23. The amount of primary explosive is about 100 milligrams , the amount of secondary explosive priming depends on the desired power (typically 100 milligrams to 1 gram). The bucket 21 is closed at each end by a flail 24, 25 (the seal may be completed by a varnishing of the faces of the bucket carrying the straws 24,25). It would be possible to provide a bucket 21 in which the straw 24 would be omitted and replaced by a full-bottom bucket. The energy of the shock of the explosive will indeed be sufficient to spray the bucket 21. The choice between solid bottom or straw depends on the desired effect: fragmentation with the solid bottom or projection of plate with the straw. It will be noted that, thanks to the invention, it is easy to define different types of detonators by modifying only the nature and the composition of the output stage 19. Moreover, the safety characteristics of use being ensured by the 1, all these detonators will have the same level of security without the need to take over the complete definition of the component 17. The housing 18 is crimped (crimping 26) at its rear part on the connector 13 which has a groove 13a for this purpose. The set will be an indémontable detonator.

FIG. 6 shows another embodiment of a pyrotechnic component which differs from the previous one only in its dismountability. For this purpose the housing 18 comprises a threaded portion 18a on which is fixed a screw cap 27. The stopper 27 comes to form a stop against the rear of the connector 13. Such an embodiment is particularly interesting in the development phase to respond quickly to a need. It may be possible to provide an O-ring seal 29, between the housing 18 and the connector 13, housed in the groove 13a. Thanks to the invention it is also possible with the same igniter 1 and the same connector 13 to produce an igniter type pyrotechnic component. It suffices for this to implement an output stage 19 of different nature, wherein the bucket 21 contains at least one pyrotechnic composition. FIG. 7 shows such an outlet stage 19 only, the bucket 21 containing a single layer 28 of a pyrotechnic composition, for example of the Bore nitrate type. This bucket is of course positioned instead of the bucket 19 of Figures 5 or 6. If the desired pyrotechnic effect is the generation of gas, it can implement an output stage in which the bucket 19 contain at least one powder propellant, for example a single base powder or a double base powder or more simply a black powder. The invention thus makes it easier to define and supply at low cost a whole range of pyrotechnic components which all use the same igniter 1 equipped with a connector 13. To manufacture a pyrotechnic component according to the invention, it is therefore sufficient to: Realizing an igniter 1 comprising a cell 2 containing a pyrotechnic composition 3 and an initiation means 4. This igniter will comprise two conductive pins coming out of the cell and each having at least one groove intended to cooperate with a deformable sleeve integral with a electrical connector 13.

The igniter 1 is then secured with a connector 13. A housing 18 (made of metal or plastic material according to the desired use) is also produced. In this housing 18 is placed at least one pyrotechnic output stage 19 which will have been manufactured elsewhere and defined according to the nature of the pyrotechnic component 17 that is to be achieved. The igniter 1 and the connector 13 are housed in the casing 18, the igniter 1 being positioned in the vicinity of the pyrotechnic output stage 19. Finally, the casing is closed (releasably or removably depending on the nature of the casing set implemented.

Claims (13)

CLAIMS 1-Inflammator (1) comprising a cell (2) containing at least one pyrotechnic composition (3) and means (4) for initiating it by electrical energy which is connected to at least two conductive pins (5a, 5b ) exiting the cavity (2), igniter characterized in that each pin (5a, 5b) comprises at least one groove (10) which is intended to cooperate with a deformable sleeve integral with an electrical connector. 2- Inflammator according to claim 1, characterized in that the cell (2) is closed by at least one flap (9) of flexible plastic material. 3- Inflammator according to one of claims 1 or 2, characterized in that at least one pin (5a, 5b) comprises a machining (14) which is arranged opposite a metal bottom (2b) of the cell (2). ) so as to form a zone (15) promoting the flow of electrostatic discharges. 4- Inflammator according to one of claims 1 to 3, characterized in that the pyrotechnic composition (3) is selected from the following compositions Zirconium / potassium perchlorate, Zirconium - Boron / potassium nitrate. 5. Inflammator according to claim 4, characterized in that the mass of the pyrotechnic composition is between 30 milligrams and 50 milligrams. 6. Pyrotechnic component characterized in that it comprises an igniter (1) according to one of claims 1 to 5, igniter which is attached to an electrical connector (13). 7- Pyrotechnic component according to claim 6, characterized in that the igniter (1) is housed in a housing (18), the housing also enclosing at least one stage (19) of pyrotechnic output disposed in the vicinity of the igniter (1). ). 8- pyrotechnic component according to claim 7, characterized in that the output stage (19) is an igniter relay comprising a bucket (21) containing at least one pyrotechnic composition. 9- pyrotechnic component according to claim 7, characterized in that the output stage (19) is a detonator relay comprising a bucket (21) containing at least one explosive composition. 10- pyrotechnic component according to claim 7, characterized in that the output stage (19) is a gas generator comprising a bucket (21) containing at least one propellant powder or a black powder. 11- pyrotechnic component according to one of claims 7 to 10, characterized in that the housing (18) is closed at its rear by a screw cap (27). 12- pyrotechnic component according to one of claims 7 to 10, characterized in that the housing (18) is crimped at its rear portion on the connector (13). 13- A method of manufacturing a pyrotechnic component (17), characterized by the following steps: - an igniter (1) is produced comprising a cell 25 (2) containing at least one pyrotechnic composition (3) and means (4) of initiation thereof by electrical energy which is connected to at least two conductive pins (5a, 5b) emerging from the cell (2), each pin comprising at least one groove (10) which is intended to cooperate with a deformable sleeve 30 secured to an electrical connector (13), - the igniter (1) is secured with a connector (13), - is placed in a housing (18) at least one pyrotechnic output stage (19), - the igniter (1) and the connector (13) are housed in the housing (18), the igniter (1) being positioned in the vicinity of the pyrotechnic output stage (19), - the housing (18) is closed again .