FR2775769A1 - Submarine launched munition for mine clearance - Google Patents

Abstract

The submarine launched munition has a canon mounted in a remote controlled vehicle. The mouth of the cannon has a plug to prevent entry of water before firing. The plug is destroyed by passage of the shell during launch.

Description

CANON, VEHICLE AND METHOD OF DESTRUCTION

OF A PREDETERMINED OBJECT

DESCRIPTION

  s Technical field of the invention The present invention relates to an underwater projection cannon for a shell, in particular an explosive shell; to an autonomous underwater vehicle for destroying a predetermined object in which such a cannon is integrated; and a method of destroying a predetermined object using a cannon, or a vehicle

according to the invention.

  The predetermined object can be any object which it is necessary to destroy for example for reasons of security or congestion in a terrestrial area

or underwater.

  For example, the predetermined object can be a land, sea or underwater vessel, a suspect suitcase or package, a terrorist explosive charge, or a muratized explosive charge such as a mine.

terrestrial or underwater.

  The invention can therefore find an interesting application without being limited thereto, in the destruction of an underwater mine, in particular a muratized underwater mine such as a bottom mine, a

  mooring mine or a rising mine. -

  PRIOR ART Currently, various devices are

  used to destroy for example mines under

  marines. A first of these devices uses a "self-propelled fish" (PAP). The PAP weighs around 800 kg and is equipped with sonar and video equipment. After detection and classification of a mine to be destroyed, the PAP is launched from the hunter and it is guided by means of a drop-down cable. Of them

  mine attack configurations are possible.

  For a bottom mine, the PAP deposits an explosive charge of 100 kg near the mine, and for a ruddy mine the PAP sets up a pyrotechnic shear. The load and the shears are

  triggered remotely after recovery of the PAP.

  A second of these devices is a variant of the first by which the PAP has an explosive charge in contact with the mine, and with which the attack on a rope mine is made on the float

  itself and no longer by cutting the rope.

  This device comprises a carrier underwater vehicle guided by a vessel, intermediate downhole equipment, deposited by the vehicle near the bottom mine or a toad mine toad, a load-carrying machine, and a cable carrying assembly connecting the load carrying machine and

  the building via intermediate equipment.

  These devices have many drawbacks which are in particular a long duration of the mine destruction operation, approximately equal to 45 minutes, a low charge efficiency in the face of insensitive mines, a risk of causing the explosion of the mine near the vehicle, a

large volume of the device.

  However, in the application of the present invention, it is advantageous to have an efficient, rapid and possibly bulky means of destruction of a mine and more generally of a predetermined object. SUMMARY OF THE INVENTION The aim of the present invention is in particular to provide an underwater projection cannon for a shell, in particular an explosive shell for destroying a predetermined object, an autonomous underwater vehicle for destroying a predetermined object in which such a cannon is integrated, and a method of destroying a predetermined object using a cannon and / or a vehicle

according to the invention.

  The explosive shell for destroying a predetermined object may comprise a rigid structuring envelope defining a cavity, an explosive charge disposed in said cavity, at least two points for initiating the explosive charge, and a device for initiating the charge. explosive connected to said ignition points, said envelope having at least one zone of lower impedance and said at least two ignition points being placed separate in said cavity in such a way that the ignition of the explosive charge from the , at least two firing points causing the generation of at least two detonation waves respectively, said detonation waves propagate in the shell cavity and meet substantially at the level of the

lower impedance of the envelope.

  The predetermined object may be one of those mentioned above, in particular it may be a muratized explosive charge such as a muratized underwater mine, for example a bottom mine, a

orin or a rising mine.

  The structuring envelope has the function of giving the shell its shape. In general, this shape can be chosen in such a way that the shell penetrates the air, the water and / or a predetermined object. For example, the shell may have a

general cylindrical shape.

  When the shell is intended to penetrate a predetermined object and / or into a medium different from air to reach the predetermined object, this envelope also has the function of perforating the predetermined object and / or the medium, and of resist the impact of the shell with this object and / or with this environment. For example, when the shell is intended to destroy a mine, this envelope must be able to allow in

  some cases a penetration of the shell into the mine.

  The envelope can therefore generally consist of any material suitable for forming an explosive shell having a structure and a resistance required to reach, possibly penetrate, and then destroy a predetermined object. This material may for example be a steel or a material having mechanical characteristics equivalent to a

steel.

  The shell can have a length greater than or equal to its diameter. The length of the shell can be

  chosen according to the predetermined object to be destroyed.

  According to the invention, this shell can for example have a length of 0.06 to 0.15 m and a diameter of 0.06 to 0.1 m when the shell is intended, for example, to enter a mine. The thickness of this envelope can be chosen according to the material of which it is made and according to the required resistance of the shell. This thickness can be for example from 3 × 10 3 to 5 × 10 −3 m for

steel.

  The shell may have an end facilitating its penetration into a material, for example an end having a rounded shape or a sharp shape such as a conical shape. This end may for example be made of a steel or a material harder than that of the shell of the shell to facilitate this

penetration.

  The shell of the shell includes at least one zone of lower impedance. This zone of lower impedance surrounds the place where the meeting of the at least two detonation waves takes place, and in particular has the function of allowing the propagation of the detonation due to the explosion of the explosive charge of the shell at the level of, or in, the predetermined object, for example

in a mine.

  The impedance mofndre zone can be made of aluminum or a material having a

  mechanical impedance equivalent to that of aluminum.

  This area can also be an area of the envelope

  structuring comprising orifices.

  The explosive charge can be an impact insensitive charge, and it is preferably sufficiently energetic for the explosive shell according to the invention to allow at least part of the destruction of the predetermined object. This charge can be, for example, an octogenic composition comprising, for example, 50% of TATB and 50% of any octogen. The shell may include at least two explosive charge ignition points and an explosive charge ignition device connected to said ignition points. These ignition points can be ends of electrical wires at the end of which a spark can be produced to trigger the explosion of the explosive charge contained in the shell. These, at least two, starting points are placed separate in the cavity of the envelope, and in positions such that when the explosive charge of the shell is initiated, the detonation waves generated from these points priming meet substantially at the level of the lower impedance zone of the envelope. This meeting of detonation waves at the level of the lower impedance of the envelope makes it possible to generate a much higher pressure wave than that which is generated by a conventional shell started at a single point and comprising the same quantity of explosive charge. . According to the invention, the shell can for example comprise two

priming points.

  The priming device is a conventional device such as those used in the field

technique considered.

  This priming device can be placed in the shell cavity, it must make it possible to generate one or more electrical signals which will be conducted by electrical wires to the priming points of

the explosive charge of the shell.

  The explosive shell may further comprise a shell impact detector with its target, connected to the device for initiating the charge. This impact detector can be a conventional detector such as those used in prior art shells. This impact detector can make it possible to control the device for initiating the shell so that the shell does not explode until it touches the predetermined object, or else after a predetermined time from its impact.

with the predetermined object.

  The explosive shell may further include a delay line connecting the device for initiating the explosive charge and the at least two initiating points. This delay line can in particular make it possible to coordinate the initiation of the charge at the various initiation points of the shell so that the signal generated by the initiation device arrives for example at the same time, or at different predetermined times, at the different points of initiation of the explosive charge of the shell. This delay line can consist, for example, of one or more wires of predetermined lengths. This delay line, in addition to the position of the ignition points and the zone of lower impedance of the shell of the shell, can make it possible to ensure that the detonation waves generated by the ignition of the charge from the priming points meet at the level of the lower impedance of the envelope. The delay line can be such that it allows simultaneous priming of at least two points

shell firing.

  The explosive shell has the advantages of allowing in particular: - penetration of the shell into a predetermined object to be destroyed, for example in an underwater mine, - a meeting of at least two detonation waves at the level of the zone lower impedance of the shell of the shell so as to amplify the overpressure due to the explosion of the explosive charge contained in the shell, and - the destruction of the predetermined object by bursting thereof and / or explosion. This explosive shell allows for example to detonate and / or initiate a very insensitive explosive such

  than a muratized underwater mine to destroy it.

  Other advantages of the shell are that it can be very compact and that it makes it possible to develop a power much greater than that obtained with

  a conventional shell and with an equivalent charge.

  The present invention relates in particular to an underwater projection cannon for a shell, said cannon comprising first and second ends, the first end comprising a detonation chamber for projecting the shell, and a receptacle for the shell placed in front of the detonation chamber, the second end comprising a mouth by which the shell is projected out of the barrel, said mouth comprising a seal which prevents water from entering the barrel before the projection of the shell, said cover consisting of a material and having a thickness such that it is destroyed by projection

shell.

  According to the invention, the barrel can be made of any material resistant to one. projection of a shell, for example it can be made of a composite material, for example of a mixture of glass fibers and epoxy resin. This cannon can be

intended for single use.

  According to the invention, the barrel comprises in its first end a detonation chamber for projecting the shell and a receptacle for the shell placed in front of the detonation chamber. The detonation chamber may include a conventional detonation device such as those used in the guns of the prior art to project a shell. The shell receptacle allows you to receive and hold a shell

  in front of the detonation chamber before its projection.

  The barrel can for example have a length of

  0.7 to 1 m and an internal diameter of 0.06 to 0.1 m.

  The seal prevents water from entering the barrel. It is therefore preferably made of a material and has a thickness such that it is resistant to a given pressure corresponding to the immersion pressure of the barrel at which the projection of the shell must be carried out. For example, for a projection of a shell with the cannon according to the invention to a depth of 300 m, the cover will have to resist a

external water pressure of 3 x 106 Pa.

  This cover is also made of a material and has a thickness such that it is destroyed by the projection of the shell. For example, it can be provided that the cover is destroyed by the overpressure created in front of the shell when it is projected when the shell is approximately 0.01 m from it. For example, for a length between the shell before projection and the gate of 0.7 m, the overpressure created in front of the shell when it is 0.01 m from the gate is 70 times the initial pressure in the barrel in front of the shell before its projection. The cover may therefore for example be made of a material and have a thickness such that it is destroyed when the overpressure in the barrel during the projection of the shell reaches 70 times the pressure.

before projection of the shell.

  This cover may for example be made of aluminum or of a material having a mechanical resistance equivalent to that of aluminum.

  The thickness of the cover can be about 10-3m.

  This thickness is suitable for example when the barrel has an internal diameter of 0.6 to 0.1 m. The other elements of the barrel can be the same as those of a barrel

classic.

  Thus, according to the invention, the muzzle of the barrel is closed by a cover which resists the pressure of water, which prevents water from entering the barrel, and which is destroyed for example by the overpressure created in the barrel , in front of the shell, when the shell is projected. In addition, when the cover is destroyed, the barrel releases an air bubble which facilitates the change of air-water environment of the shell and increases

the range of the shell in water.

  According to the invention, this gun can be a projection gun of any underwater shell, by

  example of a shell like the one described above.

  This cannon can for example be a

  projection of a shell for the destruction of an underground mine

  muratized marine according to the invention.

  The barrel according to the invention has the particular advantage of being able to operate in water, without having to add devices to it. sealing complexes. In addition, the range of a shell can be

augmented with such a cannon.

  It can be integrated in a vehicle, in particular in any underwater vehicle of

  destruction of a predetermined object.

  Also, the invention also relates to an autonomous underwater vehicle, said vehicle comprising a vehicle body of generally hydrodynamic shape, in which are placed an underwater propellant, and at least one gun according to the invention.

  The autonomous vehicle and the under thruster

  sailor may be those conventionally used in the

technical area considered.

  According to the invention, this vehicle can include-

  furthermore a sonar for identifying a predetermined object, for example from an underwater mine, and a device for navigating from said vehicle to said predetermined object. These elements can also be those conventionally used in the technical field

considered.

  The vehicle according to the invention can comprise one or more guns according to the invention. When it comprises several guns, these guns can be placed parallel to each other or offset angularly between them in said vehicle. A vehicle comprising several guns makes it possible to increase the probability of destruction of a predetermined object by a shot

simultaneous of several shells.

  This vehicle can also make it possible to destroy in one go, for example by a simultaneous firing of several shells from several guns that it

  contains, several predetermined objects.

  The vehicle according to the invention has the advantage of being able to be made of a lighter material than those used in the prior art, since it is not necessary to seal this vehicle, the barrel it contains being sealed by the cover. Water can surround the barrel in the vehicle and thus the pressure exerted by the water on the body of the vehicle will not be as restrictive as

  for a vehicle that must remain waterproof.

  The vehicle according to the invention is therefore much lighter than a vehicle

classic of the prior art.

  The present invention also relates to a method for destroying a predetermined object comprising in this order: - an introduction of at least one explosive shell such as that described above inside the predetermined object, and - an initiation of the explosive charge of the shell so that the shell explodes and causes the

  destruction of the predetermined object.

  The predetermined object can be one of those described above, for example a muratized underwater mine. According to the invention, the initiation of the explosive charge can be carried out simultaneously from the at least two initiation points of the explosive shell. According to the invention, the initiation of the explosive charge of the shell can be carried out with a predetermined delay from the impact of the explosive shell with a surface of the predetermined object preceding

  the introduction of said shell into the predetermined object.

  This predetermined delay can be. obtained for example by means of an impact detector, a priming device, and a delay line such

  than those previously described in the shell.

  According to the invention, the explosive shell can be introduced into the predetermined object by projection of said at least one shell on said predetermined object respectively, from at least one gun according to the invention. This gun can be integrated into an autonomous underwater vehicle according to the invention. When several guns are integrated into a vehicle, the projection of the shells from the guns is preferably carried out simultaneously so that there are no interactions between the different projections and in order to increase the probability of destruction of

the predetermined object.

  According to the invention, the explosive shell can, for example, be projected from the, at least one,

a speed of 200 to 700 m / s.

  According to the invention, the shell can be projected from the, at least one cannon, for example at a

  distance of approximately 1 m from the predetermined object.

  The method of the invention is very effective in destroying, for example, a muratized underwater mine. Other advantages and characteristics of the invention will appear better on reading the

  description which follows given, of course, as

  illustrative and not limiting, with reference to the drawings

attached.

Brief description of the figures

  - Figure i is a cross section, lengthwise, of a shell according to a first embodiment of the invention, - Figure 2 is a cross section, lengthwise, of a shell according to a second embodiment of the invention, - Figure 3 is a cross section, lengthwise, of a vehicle comprising a gun according to the invention, - Figure 4 is a cross section, in lengthwise, of a vehicle including

two guns according to the invention.

Examples

  A first embodiment of this

  invention is shown diagrammatically in FIG. 1.

  In this figure, the shell 1 for destroying a predetermined object comprises an envelope 3 defining a cavity 7. The envelope is made of steel and it has a thickness of approximately 2x10-3 m. According to this embodiment, the shell is cylindrical and has a

  0.15 m long and 0.1 m diameter.

  This shell 1 comprises a zone 5 of lower impedance placed substantially in a central part and over the entire periphery of the cylinder formed by the casing 3. This zone of lower impedance is made of aluminum. The cavity 7 is filled with a load 9

  explosive which is an octogenic explosive composition.

  Two starting points, referenced 11 and 13, are placed in said cavity, on either side of the zone 5 of lower impedance of the envelope 3. These starting points 11 and 13 are placed in such a way that , the initiation of the explosive charge from the two initiation points 11 and 13 causing the generation of two detonation waves referenced respectively 01, and 013 in the shell cavity, the detonation waves 01 and 013 meet substantially at the level of zone 5 of lesser

envelope impedance.

  This encounter at the level of the lower impedance generates a surge wave much higher than that which can be obtained with a single ignition point, for the same amount of explosive charge. The shell shown diagrammatically in this figure may further comprise a shell head shown diagrammatically in dotted lines and indicated by the reference 15. This shell head has a conical shape and is made of the same material as the envelope. It facilitates the penetration of the shell into an environment or into a

predetermined object.

  In this figure, are also represented, schematically, an impact detector 17 placed in the head of the shell, connected to a device 19 for initiating the explosive charge, as well as a delay line connecting this device and

priming points 11 and 13.

  This shell is, for example, very effective in penetrating a muratized underwater mine and the

destroy by bursting.

  A second embodiment of the present invention is illustrated in FIG. 2. The shell of this embodiment bears the reference 1 ′. This embodiment differs from the previous one only by the zone of lower impedance. Indeed, in this second embodiment, the zone of lower impedance referenced 5 ′ is a zone of the structuring envelope 3 at the level of

  which orifices have been made.

  The references identical to that of FIG. 1 indicate the elements common to shells 1 and 1 ′ The impact detector, the priming device and the delay line may be present in this embodiment, but are not shown on this figure. This shell is effective just like the previous one

  to destroy a muratized underwater mine.

  Figures 3 and 4 illustrate a vehicle according to the invention. In FIG. 3, the vehicle 20 is an example of a vehicle for destroying an underwater mine according to the invention. It comprises a body 22 of generally hydrodynamic vehicle in which are placed an underwater propellant 24 and a barrel 26 according to the invention. This vehicle further includes an identification sonar 28. The vehicle body 22 consists of a mixture of epoxy resin and fiberglass. This vehicle has a length of 1 m and a diameter of approximately

0.3 m.

  The underwater propellant is a conventional propellant such as those used in the field

technique considered.

  The barrel 26 is a projection gun under

  marine of a shell according to the invention. It consists of a mixture of epoxy resin and fiberglass. he

  has a length of 0.7 m and a diameter of 0.05 m.

  This gun 26 comprises a first and a second end, the first end comprising a detonation chamber 30 for the projection of a shell 34, and a receptacle 32 for the shell 34 placed

  in front of detonation chamber 30.

  The second end of the barrel 26 comprises a mouth 36 through which the shell 34 can be projected out of the barrel, said mouth comprising a cover 38 which prevents water from entering the barrel before the projection of the shell, said cover being constituted

  of aluminum and having a thickness of approximately 10-3 m.

  When the shell is projected from its receptacle by a detonation in the detonation chamber 30 of the barrel, an overpressure is created in front of the shell 34, between the latter and the cover 38, and the cover is destroyed by this deletion. A gas bubble is then released from the barrel, and facilitates the

air-water passage of the shell.

  In FIG. 4, the vehicle 40 shown diagrammatically differs from the vehicle 30 only by the presence of two guns 26. These guns are separated from each other by a certain angle in the vehicle so as to be able to fire two shells in two different directions, in order to increase the probability of impact of one of the shells with

  the predetermined object to be destroyed.

  Shell 34 can be a shell such as those

described previously.

  This type of vehicle is suitable for example for

destroy an underwater mine.

Claims (13)

  1. Underwater projection cannon for a shell, said cannon comprising first and second ends, the first end comprising a detonation chamber for projecting the shell, and a receptacle for the shell placed in front of the chamber detonation, the second end comprising a mouth by which the shell is projected out of the barrel, said mouth comprising a cover which prevents water from entering the barrel before the projection of the shell, said cover consisting of a material and having a thickness such that it is destroyed by projection shell.   2. Canon according to claim 1, in which   the barrel is made of a composite material.   3. Barrel according to claim 1 or 2, wherein the barrel has a length of 0.7 to 1 m and a internal diameter from 0.06 to 0.1 m. 4. Canon according to any one of   claims 1 to 3, in which the cover is   made of aluminum, or of a material having a mechanical resistance equivalent to that of aluminum.   5. Canon according to claims 3 and 4, in   which the cover has a thickness of about 10-3 m.   6. Autonomous underwater vehicle for destroying a predetermined object, said vehicle comprising a vehicle body of generally hydrodynamic shape, in which an underwater propellant is placed, and at least one cannon according to any one of claims 1 to 5.   7. Vehicle according to claim 6, further comprising a sonar for identifying the predetermined object and a navigation device   from said vehicle to said predetermined object.   8. Autonomous vehicle for destroying a muratized underwater mine, this vehicle being a vehicle according to claim 6 or 7.   9. Method for destroying a predetermined object, in which at least one explosive shell is introduced into the predetermined object by projection of said at least one shell on said predetermined object respectively, from at least one cannon according to   any one of claims 1 to 5.   10. Method for destroying a predetermined object, in which the explosive shell is introduced into the predetermined object by projection. of said at least one shell on said predetermined object, from at least one barrel of a vehicle,.,. according to claim 6 or 7.   11. The method of claim 9 or 10, wherein the explosive shell is projected from, at   minus one, gun at a speed of 200 to 700 m / s.   12. The method of claim 11, wherein the at least one shell is projected respectively from the, at least one, cannon, at a distance of   about 1 m from the predetermined object.   13. Method according to any one of   claims 9 to 12, wherein the predetermined object   is a muratized underwater mine.