LU92216A1 - Regulated combustion pressure socket for small and medium gauge - Google Patents

Description

The field of the present invention is that of small and medium caliber ammunition which can in particular be used by the security forces.

In 1 state of 1 art. it is well known that to ensure a limited and reproducible increase in pressure, each vent may consist of an opening, usually circular which is sealed according to the state of the art by a (the) flake (s). which are most of the time glue (s) on the inside of the high pressure chamber. It is in some embodiments of metal flake (s) of small thickness of ductile metal such as aluminum or. brass or bronze. It is also possible that these achievements are not known to use plastic instead of metal which requires studies of aging resistance and compatibility with the powder used. Two types of propellant (5) are usually used in the known productions: (i) a propellant with a metal case or a blank bullet whose wall generally of metal and cylindrical (6) reinforces that of the high pressure chamber (3); (ii) a propellant with a plastic side wall, mounted and crimped on a metal base, the latter can use a wad and crimping, especially star to ensure a more progressive pressure rise. In the embodiments according to the state of the art, the opening or openings may be plugged by a wad consisting of porous material and low fuel with respect to the burning rate of the powder; 1 advantage according! The invention is to be able to remove this wad or filler material (9) which does not produce specific additional effect other than a wedge for the maintenance in place of the powder. In all embodiments according to the state of the art the high pressure chamber is in most cases provided with a vent or opening axial or parallel to 1 axis of revolution which have the drawback of iodine a blowtorch effect in the axis of the orifices which are sources of damage in particular for the propulsion of plastic projectiles, as is the case in the description of the patent WO2005 / 043072.

In the other improved embodiments such as W02005 / 043072 the W091 / 10877 and the US2011 / 0067593. we note the realization of lateral or radial vent known elsewhere since the last war for the propulsion of ammunition of larger calibers.

It is recognized according to the state of the art that the realization of these vents or lateral or radial openings require the realization of an additional piece which is either targeted or inserted into the munition forming a low pressure chamber, one of the objectives of the present invention. is to allow the realization of a monoblock socket with vent and achievable with a low production cost, so by molding with the simplest technologies.

Patent 1 R2925666 discloses a munition propelled by a blanket cartridge type flip with a plastic wad, there is no high pressure chamber here and the projectile is guided and protected during its launch by a plastic shoe.

This embodiment uses a large amount of powder.

causes a significant decline and does not have a good regularity; in order to improve the ammunition made according to this invention, it has been realized the replacement of the blank cartridge by a metal insert which serves as a diffuser, the latter contains a short white-leaf cartridge and the openings of the diffuser or high-pressure chamber are left free from clogging off or during operation. This more promising version was not followed by the manufacturer because of the lack of reproducibility, the pressure limitation before opening the high pressure chamber was not sufficient. In order to compensate for this fact, the manufacturer then increased the loading density which leads to using the powder in a pressure zone where the combustion rate varies exponentially as a function of this pressure, the consequences are then significant variations in the speed of the projectile for small variations in the quantity used in manufacture with the risk of going into detonation mode and deterioration of the weapon. Moreover the use of axial and / or radial openings in the high pressure chamber is a known and public means, but the achievements have always been made with the concern of not closing the openings with elements of the cartridge. propellant.

The present invention surprisingly allows a fine calibration of the operating pressure of the high pressure chamber without adding new elements during the manufacture of the ammunition. Controlling the rate of combustion of the powder by controlling the opening pressure of said vents (4) without modifying the design of the propellant cartridge which is usually a blank cartridge of a caliber less than the caliber of one weapon, of preferably folded at its top, which is called a leaflet. The use of sheet cartridges with a caliber between 8 mm and 12 mm is well known according to the state of the art for initiating medium or large caliber ammunition, ie between 35 and 56 mm in law enforcement launchers or launchers. military grenade.

In current commercial embodiments there is generally (i) an insert or high pressure chamber which is directly loaded with pyrotechnic composition, i! is provided with a priming and at least two openings, it can then be called in the pyrotechnic technique high pressure chamber or gas generator, said openings can be closed by pad Iets in order to achieve pressure calibrated vents and temperature according to the technique and the know-how of the manufacturers. (i i) a high-pressure chamber itself loaded with a propellant cartridge, most of them being rehashed with a single opening on the upper part of the chamber and facing the projectile. In some embodiments, the high pressure chamber milk part of the propulsive sleeve in a monobloc embodiment which can be preserved according to the invention.

In the most advanced embodiments, a calibration is applied by a glued post to close the opening, this operation and this flap become unnecessary from the present invention.

thus simplifying the realization while improving the accuracy of the calibration pressure and opening temperature, notwithstanding the fact that the inventor is limited to radial vents which are a better embodiment to obtain a progressive relaxation of the gases and therefore a progressive thrust of the projectile very advantageous when the ammunition is equipped with projectile having a disintegration behavior or modified by strong accelerations, and especially during an impact, I use ammunition according to 1 state of art for the propulsion of some of these projectiles is impossible because would lead to the destruction or destructuring of the projectile at launch. In this type of achievements. I vent is generally central according to the axis of revolution of the socket. In rarer embodiments, such radial vents are used which have the advantage of allowing a better legulation of the pressure drop between the upper chamber and the lower chamber and therefore a better regularity of combustion of the powder, which consequently assures all things being equal better accuracy of the ammunition. In all these embodiments, it is known in the state of the art that the walls of the propellant cartridge may be an obstacle of a nature to partially or totally close one or more openings and thus disrupt the proper functioning of the device by introducing a rise in Unexpected or uncontrolled pressure that may lead to the destruction of the case and overpressure likely to damage the weapon or to injure the shooter.

Indeed the pressure threshold and the breaking time conditioned by the pressure and the internal temperature of the high pressure chamber significantly and in some cases exponentially affect the rate of combustion of the powder or pyrotechnic composition (7); hence the need to control these parameters for compositions and a loading volume adapted to the high pressure chamber and the allowable pressures in the chambers with a minimum of unburnt particles. The low pressure chamber is itself resting on the chamber of the launcher's barrel and coming to exert a force on the lock which holds the barrel in position relative to the rest of the weapon. In order to avoid any counter-sense, it is recalled that the loading density, usually defined in pyrotechnic manuals as the volume of powder, relative to the volume of the chamber which contains it, is a unitless quantity which makes it possible to compare the compositions used. under different forms of implementation (rods, spheres or other tubes for example).

It can be seen that ammunition whose openings form vents by being provided with flakes, and in particular those positioned radially, obtain better results, especially in terms of regularity and powder performance. It should also be noted that such achievements are only the extrapolation milk according to the state of the art and the evaluation according to the inventor, but that no known commercial realization includes such an arrangement in view of its development difficulty. and serial production. It can be seen, for example, that a 44mm ammunition propelled by a simple 12 gauge "Gauge" flush cartridge, which is close to 18mm without a vent other than a flap or seal, that will release the cartridge. propellant foil usually requires one gram of powder and remains subject to large irregularities while the same munition with an insert and radial vents, requires less than two Ibis less propellant and achieves better results in speed and standard deviation of these speeds, all conditions being equal. In this embodiment there is usually no glitter for technical reasons of difficulties of implementation and holding resulting in economic consequences and an additional risk of malfunction for a gain considered low performance although it produces a saving of powder. It is usually preferred in order to achieve the sealing of the high pressure chamber to achieve a gluing of a flap or outer ring closing these radial vents on the side of the low pressure chamber by gluing, in particular a plastic part or metal spar usually brass or aluminum one to two tenths of a millimeter thick; The use of a metal outer strapping being known to cause uncontrolled or hieratic pressure surges.

Nevertheless, it is economically advantageous to produce a munition which would have the advantages of the performance of the embodiments made with lateral or radial openings provided with straws without presenting the technical or economic drawbacks of production according to a state of the art: it is the object of the present invention.

Obtaining a controlled variation of the combustion regime by varying the rupture threshold of the vents and their surface supposes that the composition is chosen according to the state of the art in order to obtain a variation as close as possible to a linear variation during most of the established combustion of the pyrotechnic composition (7). It is necessary to avoid the combustion regimes located in the highly exponential part of the characteristic curve of the composition (combustion rate as a function of the instantaneous pressure).

In order to avoid an uncontrolled transition towards these rapid combustion regimes which can lead to a transition in detonation, in particular for powders resulting from the grinding of old gun powders, and especially containing at least one base having a significant percentage of nitroglycerine; the present invention has provided either surprisingly to plug in the manufacture or to obturate reproducibly during firing. all the openings by an elligated calibrated layer after its initiation of the powder; said openings being an integral part in manufacturing the constituent elements of such an ammunition.

The object of the present invention responds to the need to have a munition whose initial thrust is regulated in the combustion regime by an opening of vents which is not in the axis of the launch of the projectile or parallel lagoon to be used for the launch! casing as a low pressure chamber and avoid a direct jet of gas on the projectile, the side vents also allow according to the invention to achieve an opening parallel to the axis of revolution that the inventor prefers provided with a step of screw and disposed outside the axis of revolution of the ammunition: this opening can thus be closed by a screw, for example hollow head to obtain after shooting defusing and decapping means of the propellant cartridge by introduction through said opening of a pin hunt. This provides a munition that can be recharged and is particularly suitable for launching Iragiles projectiles such as non-lethal kinetic projectiles or having a pyrotechnic device and / or electronic. From an industrial point of view, the invention makes it possible to minimize the manufacturing cost by the possible embodiment in molding of a one-piece part for the high-pressure and possibly low-pressure chambers forming a case without the need for radial recovery requiring additional actions in machining or additional drawers or pushers for producing a mold. According to an improvement of the embodiment according to the invention, the use of the wall of the munition to calibrate the rise in pressure and realize the vents also produces a simplification of the industrial realization which is essential to make the product rechargeable in a simple manner.

An ammunition according to the present invention consists firstly of a low-pressure chamber (1), the outer part of which can form ammunition case or at least part of this case and into which the projectile is inserted through its upper opening;

Secondly, at least one high-pressure chamber (3) charged with the aid of a propellant cartridge of the blank cartridge type, which coniine I expansion of the combustion gases of the powder or pyrotechnic composition of said propulsive and which comprises at least two vents obtained by masking openings in said high-pressure chamber through said side wall of said propellant to the exclusion of a few additional pieces or pieces, these openings being dimensioned in shape and surface so as to regulate the escape of the gases to said low pressure chamber in which it is contained The exhaust of the combustion gases to said low pressure chamber is then carried out according to a pressure drop regime which will be calculated according to the rules of thermodynamics and fluid flow in order to to regulate the combustion of the pyrotechnic composition between predetermined pressure values in said chamber. therefore calls vents within the meaning of this description of the openings between the high pressure chamber and the low pressure chamber masked by at least one wall element of a propellant cartridge and which opens mechanically when the combined parameters of temperature and pressure exceed certain thresholds determined or previously defined as allowing optimal combustion of the powder. It is not therefore events as they are practiced in the conventional embodiments that are called here opening and or the management of the rise in pressure is achieved using the combustible bournes in part or all, or with metal paillets reported by gluing or crimping.

These vents (4) may be located in any portion that may be left free inside the low pressure chamber (1) at the time of firing. Pressure is an important parameter related to the rate of combustion by known laws or measured experimentally for each type of powder or propellant composition (7). Said high pressure chamber contained in the pressure booster chamber is of a volume usually lower than that of said low pressure chamber. The volume ratio of the two chambies is a factor that conditions the initial acceleration of the projectile, beyond a value called forcing pressure in the barrel and which depends on the design of said munition.

According to the invention, the vents are made by means of at least one masking of the openings by the wall of the selected propellant of thickness or embrittlement according to the shapes of the openings which one wishes to make appear when the pressure conditions and / or these particles are joined together. These walls will be selected so as to have a limited and / or defined resistance to yield beyond a temperature, under the effect of the internal pressure of said chamber, by releasing apertures suitable for total combustion. powder contained; according to the inventor, it is irrelevant whether the initiation is percussion or electric: during initiation, said cartridge releases combustion gases, the instantaneous combustion rate depending on the instantaneous pressure in said high-pressure chamber according to known laws. . It should be noted that the radial opening in the sense of this description is the opening obtained by the intersection of a radial slot with respect to a normal to the axis of revolution of said high pressure chamber with the internal cavity of the high-pressure chamber, it is also possible to work with vents whose axis of revolution or normal to their surface do not pass through 1 axis of said chamber but by a parallel and in any way.vcntuel.entent shifted by means of 25 °. such an embodiment was in accordance with the invention even if its technical realization will be more diellicae without performance advantage.

The sleeve or ammunition thus formed is characterized according to the invention in that I sealing between the two chambers is provided by .es only walls of the propellant cartridge, realizing in view of the openings, vents that remain sealed and hold the internal pressure during all the ammunition storage but also in operation from the initiation of the powder until the optimal conditions of pressure and temperature for the combustion of said powder and the diffusion of gases in said lower chamber.

The well-known operating principle is not modified by the invention: the vents (4) characterized by their surface, their shape (s) and their opening parameters, in particular the pressure, are transformed into openings and then allow the passage of gases to the low pressure chamber and thus regulate the rise in pressure due to their surface and the pressure loss they generate.

Advantageously, an insert provided with openings is obtained by molding or machining a single-piece part without the need to add a calibration piece or sill to seal the openings. There is thus a saving of a part in the manufacturing process, the only part to be produced being obtained in a simpler way since the openings are obtained by intersection of longitudinal cavities, not requiring the recovery of part in radial machining nor the addition drawer or specific elements of a nature to complicate a mold for the realization of radial vents as presented for example in the patent WO91 / 10877.

In this invention is called wall of the propellant, any constituent wall of said propellant, whether the generally cylindrical side wall or of similar shape or even new, but also a flap or plastic shutter propulsive which during the combustion of the pyrotechnic composition is projected towards the top of said high pressure chamber (o). thus closing the openings (4).

Surprisingly, one will not seek to position the vents (4) beyond the length of the propulsivet?) An open faith as it is described in the known achievements of the state of the art as US2Ü1 1/0067593 Klein, so that the openings (4) remain free; but on the contrary, one will seek a calibrated closure of the apertures (4) of surface (s) known (s). by the constituent thickness of the parol (6) of the propulsive (5) according to a determined pattern or surface. The wall closes said openings before and during the combustion of the pyrotechnic composition contained in said propellant.

In particular, the walls of the propellant which participate by masking the openings at the pressure rise will be chosen from materials which are preferably polymers and which can break up in a progressive manner, for example after boiling under the combined effect of pressure and In particular, the production of a wad of specific thickness allows a calibration of the opening pressure parameter for example while using propellant cases available on the market but not calibrated for use for a performed embodiment. according to the invention.

According to an improvement of the invention, the high-pressure chamber (3) can additionally comprise vents intended to regulate the pressure towards the low-pressure chamber (1). embrittlement or reduced thickness on a sur! ace of its common wall with the lower chamber prcss; on (1). This surface is intended to ensure the safety of the user in case of misfiring of the propellant, ensuring then a rupture of comment that will take place only in case of operation or abnormally high pressure in the high pressure chamber. It is preferable for said surface greater than the surfaces of ordinary ordinary regulation operating vents. The characteristics of the rupture of this safety seal will be calculated to obtain a faster rupture than that of the vents which can be closed by an elastomer whose rupture passes through a prior elongation. The embrittlement of the safety seal will be effected by a design leading to shear failure without prior elongation, the aim being to avoid a passage of the powder in the detonation regime, which can occur if the combustion pressure is too high, especially with double base powders.

But it has been found preferable in the many tests carried out by the inventors to have a masking piece in an elastomeric material which produces a progressive rupture of the vents under the combined effect of the temperature and the pressure of the high pressure chamber. and in particular a polymer masking piece such as, for example, polytetrafluoroethylene or other fluorinated tetra polymers, polyolefin of polymers with low silicones, viton or any other polymer usually used to produce parts having a temperature and impact resistance, in particular for the realization of hunting cartridge case. This masking device may optionally be bonded to the high pressure chamber and thus, for example, at the same time achieve an improved sealing of the high pressure chamber with respect to the low pressure chamber in particular. It is thus possible either to use this masking piece with a propellant according to the state of the art or, in a preferred way according to the invention, to use an elongate propellant, which by deploying masks the openings. In this latter embodiment, it will be possible to use commercial cases cut to the right length and come to adjust the rupture pressure of the vents by the addition of an adequate thickness of a polymeric material of known characteristics.

According to a technical reasoning, at least two surfaces of revolution of different diameters will be introduced to constitute the interior of the high pressure chamber so that the slits do not go up to the top of the high pressure chamber, which would make the openings parallel to the pressure the chamber and thus produce gas jets directly on the projectile. The realization with a cylinder. a cone or a truncated cone is also possible and described in the following.

All such descriptions or improvements according to variants of said invention are not; in no way limitative of other embodiments of the present invention which follow from it according to the state of Lan or the evolution of the technique.

Figure no. shows an exemplary embodiment for a munition made according to the invention with methods however very close to the current labneattons and phases of its operation in three steps a. b and e who were represented on the same page in order to understand the facts. The case (I) which forms a low pressure chamber (1) with the projectile (8) is in accordance with the state of the art and can use an insert used as a high pressure chamber (2) and which itself contains a propellant cartridge (3). The advantage of the invention for such an embodiment of ammunition according to the invention is that the rise in pressure is rapid in the high pressure chamber up to the rupture pressure of the wall (6) with respect to the openings (4a, 4b): due to the pressure drop generated by said openings (4), the increase in pressure of the low pressure chamber (1b) is then more progressive, the combustion of the powder (7) is thus more regular and the thrust on the projectile (8) more progressive, the acceleration of the projectile being lower, this type of ammunition will be better suited than an ordinary ammunition for the propulsion of container iragiies, especially if they contain electronic means or intended to break the impact by brittle fracture. In addition, to obtain the same projectile velocity, with such an embodiment a starting pulse spread over time, the lower acceleration of the projectile is consequently lower with respect to the reaction torque. The recoil or maximum acceleration felt by the shooter is therefore lower, the use of the weapon is therefore more comfortable with identical energy. The low pressure chamber (I b) forms a case (1) of the ammunition usually intended for individual weapons of maintenance of the order, with typical calibers or outer diameter of the ammunition which are usually 37mm. 40mm. 44 and 56 mm. it comprises a cylindrical bore or bore (9) in which an insert or high-pressure chamber (2) can be arranged in which a propellant (3) is housed, as in certain current embodiments. According to the invention the high pressure chamber (2) is here provided with radial circular vents formed according to the description of the opening and the wall which the mask icu4.6). The propellant cartridge 13) here has a cylindrical wall (6) of thermoplastic polymer crimped in a metal base (IO) of brass for example. Said propellant (3) is inserted into force in the high pressure chamber (2). its length is defined for which then comes to bear on the upper part of the high pressure chamber (2) or it little; wax glued to ensure its tightness. In this embodiment, the wall (6) of the propulsive (3) thus closes the openings (4a.4b). At rest before initiation there is a configuration shown by the ligla where the wavelets represent the powder (7) and where there is shown a wedging of cellular material highly combust: ble (; 1). The propulsive is folded on itself in bead in its upper part and closed by a plastic cover ^! 2) .After the initiation of the propulsive (3) by its percussion primer (5) or electrical, it can be referred to the llglb or the powder or pyrotechnic composition (7) is ignited and its combustion represented in stars ensures a pressure rise by gas evolution is represented by points within the closed volume consisting of said propellant (3) and the surface of the high pressure chamber (2) circumscribed by the bonding circumference between the high pressure chamber (2). ) and said wall (C). this pressure comes to press the wall (6) of the propellant (3) against the wall of the high pressure chamber, thus achieving a resistance to this pressure close to that obtained by a bonding over its entire lateral surface. When this pressure associated with the increase in temperature of the constituent material of said wall elongates and then reaches its breaking value and / or elusion. the openings (4) are released according to the representation of FIG. 1a: the gases contained in the high-pressure chamber (3) then pass through the openings (4 ab) in the low-pressure chamber (I b) .Ideally the moment of this rupture corresponds to that of the end of combustion of the totality of the atm powder o optimize the quantity of powder necessary and thus to avoid a delayed combustion and thus to limit the heat of the projectile.

Diagram No. 2 is a sectional view parallel to the plane of the 2 nits (14) shown. It presents a more advanced version of realization of an ammunition socket according to the invention characterized in that it achieves in a monobloc manufacture, in particular possible by molding,! all the elements necessary for an embodiment according to the invention. The vents are constituted by thin walls and possibly Iragihsées calculated to obtain determined openings between the low pressure chamber (lb) and the high pressure chamber (2). are limited by the facing surfaces corresponding on the one hand cylindrical interior or revolution of the high pressure chamber 5) and other by longitudinal slots (14) of known widths that start from outside said upper chamber pressure and move radially towards its axis.

The vents are here made in the material of said sleeve and more specifically by thinning of the determined surface of the upper chamber (2). They are imitated by the corresponding surfaces corresponding on the one hand to the inner surface (I 5; ev lindrique or revolution of the high-pressure chamber (2) and on the other to slots (14).

Claims (5)

longitudinal of known widths that speak from outside said high pressure chamber and sink radially towards its axis. It is preferred in this embodiment for the realization of the interior of the high pressure chamber, two cylindrical surfaces of different diameters. It will thus be possible to leave enough material in the thin parts or vents (4e.4d) for the calibration of the combustion pressure in the upper chamber (o) or to realize tents which sink radially up to the diameter of the interior of the chamber) and come to carry out a propulsion with a sheet like that described in the diagram of Figure lqui which also carries the vents (4a.4b) by closing the openings with the side wall of its propellant cartridge. Atin said slits (14) do not open at the top (16) of the high pressure chamber (2), the slots 114a. 14b) are delimited radially with respect to the axis A of said high-pressure chamber by a second cylindrical surface of the smallest diameter, the first cylindrical surface (1 5) which has a diameter close to that of said propellant cartridge contained by the chamber so as to hold it in place during the operation of the ammunition is delimited in height so that the side wall of the propellant cartridge deployed during the combustion of gases comes to cover the openings or vents (4e, 4d) provided for their diffusion to the low pressure chamber to regulate the opening. According to another embodiment, it is also possible to prefer an eonicity on the upper part or inner cylinder 17) instead of this cylindrical part, this embodiment being to be preferred if the part is to be made by molding. In this embodiment, a propellant is used which alone provides the masking with two constituent scs: first, the side wall is folded along a bead, during the rise in pressure of the combustion gases, said wall comes opposite the openings and provides a closed vent (4c.4d) which is capable of ensuring a rise in pressure in its high pressure chamber (2) to optimize the quality of combustion with a minimum of powder contained in the high pressure chamber (2). Claim I: Ammunition or socket for a firearm or pyrotechnic launcher consisting of: (i) a low pressure chamber that includes two or more openings and may form a case or part of the case of a munition; (ii) at least one high pressure chamber for receiving a propellant cartridge or blank cartridge: said pressure dwarf chamber characterized by producing vents obtained by masking said openings solely by the (es) parons; iateral (s) of the propellant cartridge it contains and / or a wad internal to said wall. The sleeve or ammunition thus formed is characterized according to the invention in that I sealing between the two chambers is provided by the walls of the propellant cartridge alone, realizing in view of openings, these vents which remain sealed during all the storage these ammunition and hold at the internal pressure in operation from the initiation of the powder until the optimum conditions of pressure and temperature for the combustion of said powder and the distribution of the water in said low pressure chamber are obtained. Claim 2: .Munit, one for leu weapon according to claim 1 characterized in that the end of said propulsive is bound of Ittçon waterproof, especially by gluing to an inner portion not not having an opening of said high pressure chamber , especially in its bottom or top. Claim 3: Ammunition or socket for a firearm or pyrotechnic launcher characterized by the milk that at least two openings are obtained by Γintersection of the cylindrical inner cavity or revolution of said high pressure chamber with as many radial slits made in parallel vertical size to the axis of revolution of a bushing, from the upper part of said upper chamber in its walls and sized to ensure the regulation of exhaust gas to said low pressure chamber in which it is contained. Claim 4: Firearm ammunition according to Claim 1 and any one of Claims 1 to 3, characterized in that the high pressure chamber has a weakened opening contour or has a reduced thickness on a surface of its common wall with the lower chamber (1) but not concealed by the paroqs; propulsive, the rupture characteristics of said opening allowing a brittle fracture breaking faster than a rupture of normal vents made with the wall (s), which allows in case of high pressure to avoid the transition of combustion powder to a detonation regime. Claim 5: Firearm ammunition according to Claim 1 and 1, any one of Claims 2 to 4, characterized in that the top of the high pressure chamber is of frustoconical or conical shape. Recipe 6: Firearm ammunition according to claim 1 and any one of claims 2 to 4 characterized in that the sum; the high pressure chamber itself; of cylindrical shape of diameter smaller than the diameter of said propulsive chamber.