FR2474699A1 - Electromagnetic dipole projectile for radar target signalling - employs gas generator piston to disperse cloud of dipoles via rifled tube - Google Patents

Abstract

Indication of an enemy target position in poor visibility is given by radar by projectiles which disperse a cloud of electromagnetic dipoles. This is performed by detonation of a charge in the projectile. The signalling projectile comprises a motor body containing a propulsive composition which is locked in position by a shoulder and by a rear cap. A percussion detonator communicates with the interior of the propulsive composition via a passage. The detonator fires an ignition charge to ignite the propulsive composition. Pressure inside the motor body perforates a plate against passages in a tube to allow the gas to exhaust to provide rotational movement for the projectile. As combustion dies away a piston is driven by a gas generating powder to eject the dipoles.

Description

 The present invention relates to signaling systems or DC decoys with electromagnetic dipoles.

 In order to either facilitate the identification by Radar of a target in particular in poor visibility conditions, or on the contrary to deceive enemy observation equipment on the real position of a device, projectiles are used ensuring the dispersion at points in the atmosphere of electromagnetic elements in the form of a very easily locatable cloud of dipoles.

 However, for these projectiles to achieve the goal assigned to them, they must ensure good dispersion of the dipoles so that the area in which they are located is both homogeneous and occupies the largest possible volume.

 However, the systems existing to date do not ensure good dispersion of the dipoles.

 The invention therefore aims to remedy the aforementioned drawback by creating a signaling system with electromagnetic poles which, although it is of simple construction, ensures effective dispersion of the dipoles and thus facilitates the identification of the dipole cloud formed during the dispersion.

 It therefore relates to an electromagnetic dipole signaling device comprising a motor body containing a propellant charge and an ignition charge and on which is fixed an envelope containing a charge of electromagnetic dipoles, as well as a percussion primer intended when igniting the ignition charge, characterized in that said primer is housed in a nozzle block fixed to the engine block and provided with passages inclined relative to the longitudinal axis of the device and intended for printing to this a combined movement of translation and rotation around said longitudinal axis, during the escape by said passages of the gases generated by the propellant charge, means being provided for the ejection of the electromagnetic dipoles from said envelope, the movement of translation and rotation of the device ensuring the dispersion of the dipoles on the trajectory of the device.

Other characteristics of the invention will appear in the course of the description which follows, given with reference to the appended drawings, given solely by way of example and in which
- Fig.l is an elevational view in section of a device fitted with the signaling system according to the invention;
- Fig.2 is a front view of a primer holder nozzle used in the device of Fig.1; and
- Fig.3 is an elevational view with arra
following line 3-3 in Fig. 2.

 - Fig.4 is an elevational view in section of a variant of the device shown in Fig.l.

The device shown in Fig.1 includes an engine body 1 containing a block 2 of propellant composition. This block is immobilized towards the front by a shoulder 3 provided in the engine body and towards the rear by a wedging cup 4 which bears on one of the faces of a nozzle block 5 which is immobilized in the engine body by crimping the thinned end 6 of said body onto the nozzle block. In the central part of the nozzle block 5 is housed a percussion primer 7 which communicates with the interior of the propellant block 2 by a step
sage 8 formed in the nozzle block. On the other side of the propellant block 2 relative to the nozzle 5 is disposed an ignition charge associated with a retarding composition. At the end of said ignition charge is disposed a piston 10 in a housing 11 of which is placed a gas-generating composition 12. On the engine body 1 is fixed an envelope 13 in foil, intended to contain a charge of electromagnetic dipoles
and closed at its end opposite to the body of the engine by a warhead 14 forming a plug. Inside the envelope 13 is disposed a hoop 15 formed of two half-shells and which contains a charge 16 of electromagnetic dipoles.

 As FIGS. 2 and 3 show better, the nozzle block 5 comprises, in addition to the central housing intended to contain the percussion primer 7, exhaust passages 18, inclined, diametrically opposite. Each of these passages has a cylindrical portion 19 facing the interior of the device and closed by a spangle 20 (Fig.l) and by a frustoconical part 21 flared towards the outside of the device. The inclination of the passages 18 on the longitudinal axis of the device is such that when the gases escape through these passages, the projectile is rotated around its longitudinal axis.

 The device which has just been described operates in the following manner.

 Under the action of a not shown striker, the initiator 7 initiates the ignition charge 9 which causes the propellant bread of the block 2 to ignite by flame sweeping.

The pressurization inside the motor body causes the perforation of the straws 20 placed against the steps
sayes 18from the nozzle and the gases generated escape by providing the thrust necessary for the axial displacement as well as the torque necessary for the rotation of the device.

 During the ascent phase, the delay is given by the combustion of the retarding composition which is in the channel 22 formed in the front part of the body of the engine 1.

 At the end of the combustion of the retarding composition, the charge of gas-generating powder 12 is ignited. A push is then exerted on the assembly constituted by the piston 10, the warhead 14, the hoop 15 and the dipoles 16 and causes the e, ection of the dipoles towards the outside and, due to the rotation of the device, the centrifugation of these dipoles which then form a cloud of homogeneous electromagnetic particles and of sufficient volume to be detected effectively.

 The device which has just been described, thanks to the use of the rapid rotational movement around its longitudinal axis, has a stabilized trajectory, so that the dispersion of the electromagnetic dipoles by ejection at a determined point of the trajectory , is insured under the best conditions.

 The device can be rotated from 5000 to 50,000 revolutions per minute or more.

The device shown in Fig. 4 is appeared
ble to that of Fig. l except for the fact that it
has a full warhead 14a and connected to the piston 10a
by a central rod 23 integral with said piston. The
central rod 23 ensures the connection of the warhead and the
piston also after ejection of the assembly
so that the dipoles 16 contained between these
elements are not compressed and the rotation of the ar
tifice then fully produces its effect to assu
rer the dispersion of the dipoles on a trajectory by
centrifugation.

Claims (6)

REVtNiDTCTTINS  1. electromagnetic dipole signaling device comprising a motor body containing a propulsion charge and an ignition charge and on which is fixed an envelope containing a charge of electromagnetic dipoles, as well as a percussion primer intended for setting ignition charge, characterized in that said primer (7) is housed in a nozzle block (r>) ix to the body of the engine and provided with passages (18) inclined relative to the longitudinal axis of the device and intended to impart thereto a combined movement of translation and rotation around said longitudinal axis, during the escape by said passages of the gases generated by the propellant charge (2), means (10 , 12) being provided for the ejection of the electromagnetic dipoles out of said envelope, the translational and rotational movement of the device ensuring the dispersion of the dipoles on the trajectory of the device.  2. Device according to claim 1, charac  terized in that the nozzle block (5) is fixed to the motor body (1) by crimping an amin end wall  cie (6) of the body (1) on the nozzle block (5).  3. Device according to any one of the reven  dications 1 and 2, characterized in that the envelope contains  nant the dipole charge comprises a piston (10) mounted at  sliding in said envelope and actuated by a com  gas generating position (12) connected to the charge of alu  mage by a retarding composition housed in a channel  (22) formed in the front part of the engine body (1) and a  warhead (14) forming a plug.  4. Device according to any one of the reven  dications 1 to 3, characterized in that said load of di  electromagnetic poles (16) is contained in said in  veloppe by means of a hoop (15) formed of two  half shells.  5. Device according to any one of claims 1 to 4, characterized in that the passages (18) for exhausting the gases from said nozzle each have a cylindrical portion opening into the interior of the device and closed by a spangle (20) and a frustoconical portion (21) flared towards the outside of the device.  6. Device according to any one of claims 3 to 5, characterized in that said piston (lOa) is connected to said warhead (14a) by a rod (23) for holding the piston assembled to the warhead after ejection of the 'together.