BE1001903A7 - Defence against aerial bombs - using network of infrasound sources around target provoking intense vibration to trigger bomb prematurelyield - Google Patents

Abstract

The system includes a number of pneumatic/electronic amplifying units able to generate infrasound. These are arranged to focus the infrasound on a distant object in order to generate intense vibration on the surface of the object. The object may be an aerial bomb, and the vibration is intended to cause its premature explosion and consequent diversion from the intended target. The infrasound sources may be arranged in two circles around the defended target. The circles are at least 500 m apart, and each may include a battery of eight units. @(14pp Dwg.No.2/2)@.

Description

       

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  "RESEAU 1'O.'sllI; S INl'RASOXTQUES Dlj {ECT10ELLES SUSCITAIT - IN PARTICULAR BY FOCUSING INTENSE VIBRATORY ACTIONS - PREMATURE BREAKDOWN OR / AND SHORTENING OF THE AERIAL BOMB TRAJECTORY".



   The essential object of the present invention is the production and implementation - by means of appropriate devices - of infrasound, in particular those of a frequency of seven (7) cycles per second which are directional, and which allow to cause (due to vibrations and tremors of extreme power which they cause as soon as at least two of these waves converge on any objective) the premature burst or / and the shortening of the trajectory generally any aerial bombs.



   Indeed, as soon as aerial bombs (either dropped by bombers, or launched by long-range artillery, or even from a satellite or a spacecraft) come into contact with the network infrasonic erected to protect the objective, they are subjected to intense vibrations and vibrations which cause - by means of shock waves causing imbalance and strong increase in resistance to penetration in air - a significant shortening of their trajectory, and possible premature bursting.



   Consequently, instead of reaching the objective, or falling in its proximity, the aerial bombs - thus braked in their trajectory - fall in an area situated well in front of said objective. Distance which is obviously all the more important as the meeting of the aerial bombs with the network of infrasonic waves takes place at a greater altitude and distance from the objective.

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   The defensive process which is the subject of the present invention is particularly intended for the protection of major objectives, such as: nuclear power stations, command posts, airfields, communication nodes, railway bridges, aircraft carriers, etc. etc.



   The efficiency of such procedures is likely to reach almost 100%. To be convinced, it suffices to recall the fact - duly noted at the time by the heads and researchers of the R.A.F. - that the factory
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 Gonjnann, 10, Stiegelmeyerstrasse, located in the southern district of the city of Hanover, (factory which had probably started manufacturing precision parts for future VI and V2) was, from September 22 to the end of December 1943, submitted to several dozen bombings, most of them in dives, without any bombs falling within 200 meters of this objective ...



   Similar extraordinary cases having also occurred in Scheifurt, Leipzig, Wilhelmshaven, Dresden, etc., English and American experts concluded that the Germans were protecting some of their arms factories with special magnetic force fields.



   Regardless of these assessments, it should be considered that the protection network object of the present invention implements - with a view to creating a shock wave screen capable of braking and shortening the trajectory of generally any aerial bombs - very directional infrasounds which, while remaining absolutely inaudible, reach no less - at their point of conversion and massive focusing of waves on the surface of said bombs, etc. - inten-
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 permanent sites 7 corresponds to approximately 180 dB.



   In fact, it usually takes just two directional waves, having a frequency of seven (7) cycles per second, to cause - when they converge and

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 focus on the surface of any flying element - vibrations and shocks of incredible intensity and power. Power capable of causing, if not the annihilation of said flying elements, (bombs, dive planes, etc.) at least their deviation and subsequent great imprecision resulting, therefore, in a complete lack of efficiency.



   As for the dive bombers, which generally carry out their attacks at a fall angle of about 60, they will be unable to execute their resource. Indeed, under the action of intense vibrations occurring on the front of their fuselage - action which opposes powerfully their recovery - they will almost inevitably strike the ground; this is done far enough in front of the objective to make their attack harmless.



   Furthermore, it should be considered that these waves having a frequency cycle which are similar to the brain waves motivating mood and will, ("theta" waves of 4 to 7 cycles per second) their action causes - when it is experienced under very high intensities - a considerable reduction in the promptness and expediency of reflexes; which is dramatic, especially for pilots of fighter-bombers in dive in full action.



   The effectiveness of the defense network recommended by the invention therefore proves to be exceptional; this even in the face of massive dive attacks, or according to the so-called "carpet" bombing method.



   This extreme efficiency is due, in large part, to the fact that the directional infrasonic waves - emitted at a frequency of seven cycles per second - have the faculty of being powerfully opposed to any interference or artifice aimed at deceiving the action defense system tracking and tracking radars.

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   It should, moreover, be considered that the sixteen, batteries of infrasonic wave guns constituting the two concentric lines of defense are advantageously arranged on very low platforms, intended to be self-propelled and capable of being run away and expertly camouflaged in the ground. They are also designed to be quickly moved to other defense positions.



   This has been justified in order to defeat any possible localization capable of being carried out from reconnaissance planes operating at very high altitude, or even by detection carried out from satellites.



   Another peculiarity. The devices used according to the invention being supplied only by means of high power electric batteries and batteries of compressed air cylinders, (both being rechargeable at will by means of pipes connecting these battery equipments to generators and electric compressors arranged within the defended objective) the aforesaid devices are practically undetectable; this both by noise, light and heat.



   In addition, the entire defense network being fully automated, this avoids any loss of personnel; in particular in the event of attack of the objective by means of nuclear devices or with emission of neutrons.



   In conclusion, it is not without interest for the good understanding of the concept and implementation technique of the present invention, to recall that an infrasound of 7 Hz. (That is to say a frequency of seven cycles per second) is 13,000 times less absorbed by the atmosphere than an audible sound of 1000 (thousand) Hz.



   In addition, 7 Hz infrasonic waves having the

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 faculty (at the very least eelen certain special conditions of implementation determined in the present invention) to be extremely directional, (that is to say almost in identity with this particular characteristic specific to laser rays) they can be made to act, in a narrow spindle, even at very great distance, (at least at 10/12 km) and also give them the possibility of acting as "carrier waves" to electromagnetic waves, (or / and stimulated by very strong right magnets ); this with a view, in particular, to transporting energy:

   electric, vibratory dynamics, (explosions) or others.

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 EXPOSURE F 0 NeT ION NELl
Two belts or concentric circuits of directional infrasonic wave transmitters, which are advantageously each composed of eight self-retractable batteries (individually comprising eighteen infrasonic wave guns arranged in three rows superimposed of six) defending any objective important; notably nuclear power plants.



   As soon as the radars - a copy of which is arranged on each of the sixteen batteries making up the defense system - detect the approach of enemy aircraft, (bombers, aerial bombs from any source, etc.) these are taken into account observation and focus.



   If the approach continues, the so-called radars (operating both in "detection" action and in "tracking" action) orient and automatically put into action - towards the attacking vehicles - all of the guns emitting infrasonic waves directional; or: 16 X 18 = 288 waves with high destructive power.



   This is clearly capable of ensuring the destruction - or at least the noticeable shortening of the fall trajectory - of all the bombs which would have been dropped in order to destroy the objective protected by the network object of the present invention.



   It should be noted, moreover, that it is possible, with a view to increasing the destructive power of the defense system, to equip it with powerful chemical lasers, with instantaneous incendiary action. In this case, each of the sixteen batteries in the network would be fitted with one of these lasers.



   The basic schematic drawings attached are intended to represent

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 F I G U R E N I:
This figure represents the defense network; which advantageously includes!
The external concentric circuit I), the internal concentric circuit 2), the defended objective 3). In this case it is a nuclear power plant.



   Each of the above circuits or defense belts comprises eight self-driving batteries, each equipped with eighteen guns emitting infrasonic waves, arranged in three rows superimposed on six guns.



   As shown, the defense network is in the standby position; out of alert period.



  F I G U R E N 2:
This figure represents the defense network in action of destruction!
An aerial bomb I) has just been dropped by a dive fighter-bomber (not shown). And is heading towards the defended objective 2).



   In defense of this objective 2), two batteries with directional infrasonic wave guns 3) direct their so-called infrasonic waves 4), towards the aerial bomb 1).



   These infrasonic waves 4) converge and focus on the anterior surface 5) of the aerial bomb I), which, undergoing (by means of shock waves resulting from intense vibrations and shaking) a significant braking and shortening 6) of its trajectory drop 7), will explode in a place 8) located substantially in front of the attacked objective 2).



  (N.B. To facilitate the understanding of the process, this Figure N 2 shows in action only two guns emitting infrasonic waves).


    

Claims (10)

CLAIMS * For 1. Network of directional infrasonic waves - emitted by amplified pneumatic or electronic devices - whose action and particularity of adaptation and implementation result, in particular - according to the invention - from the fact that they cause intense vibrations and vibrations as soon as at least two of the said waves converge and focus on the surface of a generally arbitrary obstacle. 2. Network of directional infrasonic waves of which the action and the particularity of adaptation and implementation result, in particular - according to the invention and claims 1 - from the fact that it causes (by way of waves shock caused by intense vibration) premature bursting and / or shortening of the fall path of aerial bombs; any other flying elements, moving, coming into contact with it. 3. Network of directional infrasonic waves whose action and particularity of adaptation result, in particular - according to the invention and claims 1 and 2 - from the fact that it implements, for the defense of all important objective, at least sixteen batteries of self-propelled machines comprising, each one (arranged in three rows superimposed of six) eighteen guns emitting directional infrasonic waves. These transmitters being actuated by means of compressed air or / and by electronic devices amplifying the power of such waves. 4. Network of directional infrasonic waves whose action and particularity of adaptation and implementation result, in particular - according to the intention and claims I., 2., and 3 - from the fact that the batteries are arranged in a circle, on two defense circuits, each comprising eight batteries. These two circles or circuits  <Desc / Clms Page number 9>  Concentric defenses are advantageously placed at least five hundred meters from each other. The inner circle or circuit is also distant from the objective - placed in the center of the defense system - by at least five hundred meters. 5. Network of directional infrasonic waves whose action and particularity of adaptation and implementation result, in particular - according to the invention and claims 1., 2., 3., and 4. - from the fact that the batteries (advantageously eight in number on each of the two defense circuits) are arranged, in their respective concentric circuit, 45 from one another; but in asymmetry from one circuit to another. This proves capable of enabling the defense network to ensure optimum protection of the objective in all directions and azimuths. 6. Network of directional infrasonic waves of which the action and the particularity of adaptation and implementation result, in particular - according to the invention and claims I., 2., 3., 4. and 5. from fact that all the canuns generating infrasonic waves are arranged on mobile turrets orientable in all directions. Automatically controlled by detection and tracking radars (also placed on the said mobile turrets), these can direct all the infrasonic wave cannons towards the attacking vehicles. 7. Network of directional infrasonic waves whose action and particularity of adaptation and implementation result, in particular - according to the invention and claims 1., 2., 3., 4., 5., and 6. - the fact that the guns generating infrasonic waves of the internal defense circuit make their waves converge with those of the external defense circuit. These multiple convergences (of 144 waves with 144 other waves + 16 special radars) taking place exactly in all places - depending on the  <Desc / Clms Page number 10>  Raytheon's multibeam principle - where the enemy element (aerial bomb, dive bomber, etc.) comes into contact with the network.  Wave network which, moreover,  EMI10.1  advance as far as possible, '(up to 0/12 km) in height and distance, to meet these elements with aggressive intentions.  As soon as it comes into contact with the defense network, the opposing elements are subjected to intense vibrations and vibrations, caused by the focusing on their anterior surface of sheaves of converging directional infrasonic waves and either explode under the impact of these very powerful destructive energies, or / and also see their fall trajectory undergo a significant shortening. Shortening making them inevitably miss the planned objective. 8. Network of directional infrasonic waves of which the action and the particularity of adaptation and implementation result, in particular - according to the invention and claims I., 2., 3., 4., 5., 6. and 7. - due to the fact that dive bombers, which generally carry out their attacks and drop bombs at a fall angle of 60, will not be able - due to the intense vibrations and shaking occurring on their anterior surface - to effect their resource, and will, therefore, almost inevitably have to crash. This far enough in front of the attacked objective to remove any effectiveness from their action. 9. Network of directional infrasonic waves of which the action and the particularity of adaptation and implementation result, in particular - according to the invention and claims I., 2., 3., 4., 5., 6., 7:., And 8. - because it does not require, being fully automated, any intervention of labor. This makes it possible to avoid any loss of personnel, in particular in the event of attacks by nuclear and / or neutron devices.  <Desc / Clms Page number 11>    10. Network of directional infrasonic waves of which the action and the particularity of adaptation and implementation result, in particular - according to the invention and claims I., 2., 3., 4., 5., 6., 7., 8., and 9. - the fact that the directional infrasonic waves used have the ability to protect the location and tracking radars of the defense network against any interference or / and decoys deployed by the adversary .  This results from the fact that the method according to the invention foresees or effectively routes, the transmissions-receptions of the radars of the defense network, at the center of the beam of directional infrasonic waves emitted by each of the batteries. On the other hand, these same beams with multi.- magpies of directional infrasonic waves - emitted by each battery of the defense network - powerfully oppose (possibly with the additional support of interferometric jammers operating in phase opposition) to the precise location the objective defended; this is as much by the opposing radars as by the generally any remote control systems on which the aggression devices would be dependent and / or equipped. II. Array of directional infrasonic waves of which the action and the particularity of adaptation and implementation result, in particular - according to the invention and claims I., 2., 3., 4., 5., 6 ., 7., 8., 9 ,, and 10 - the fact that, as a variant of its field of application, it also provides protection missions against any aerial elements that are generally aggressive, and , in particular! A. As a defense against swarms of locusts and starlings; B. As a defense against waterspouts; C. As a means of acting against the clouds, in order to bring the rainfalls, hail, snow, etc., on specific and delimited areas; D.  As a means of causing the fall of radioactive dust in specific areas.