BE670537A - - Google Patents

Description

  

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  "New way to increase the initial velocity of self-propelling projectiles} ad hoc projectiles and launch tubes".



   This invention relates to the launching of self-propelling projectiles such as, for example, rockets ± shaped charge, using a launch tube.



   If we consider a self-propelled projectile endowed with a well-defined propellant charge, at a given temperature, the thickness of the strands and the combustion rate of the powder determine a combustion time and consequently a length traveled by the projectile between the ignition of the engine and its extinction.



   Two considerations lead to having to guide the projectile in an effective manner in its starting system until the end of combustion. They are: on the one hand, the desire to obtain

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      excellent precision, which is excluded with a rocket whose propellant operates on the free path and on the other hand, the frequent case where the situation of the launching system in relation to the operator requires protection of the latter against flame and gas escaping from the propellant.



   Considerations of handling and convenience of use have led to limiting the length of the launching system during transport. A maximum length of the order of 750 mm is generally accepted. Guidance over such a length does not make it possible, with current powders, to ensure an initial speed (Vo) sufficient to obtain the range and the taut trajectory which is required today of a light infantry rocket. In order to increase this initial speed, it is therefore necessary to increase the distance over which the projectile is positively guided.



  To this end, various means have already been proposed,
A first means consists in making use of two telescopic tubes, generally of the same length, fully engaged one in the other in the standby position and partially engaged in one another in the firing position. Unfortunately, if this solution appears simple and economical, the results obtained are only partial, given that the two teiescopic tubes necessarily have a core of different diameter, which does not make it possible to satisfy the condition of positive guidance. . on the extension of the inner tube.



   It has also been proposed to make use of such telescopic tubes but without deploying them prior to firing; the tube; inner carrying the projectile moves in the outer tube. at the same time as the projectile fired and is immobilized in its deployed position, the projectile continuing its course. In fact, therefore, the inner tube carrying the projectile slides in the tube; exterior then the projectile moves along the interior tube.



   This solution perfectly satisfies the condition of

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 positive guidance over an increased distance but involves special problems, eg by the need to stop, without prejudice, the inner tube during its maximum deployment.



   Yet another means is to make use of two tubes' placed side by side for transport and mutually articulated by a hinge and lock device, in such a way that in the rest or standby position the assembly presents a minimum length while in coaxial position, it satisfies perfectly 'the condition of positive guidance over an increased distance. Téan. less, the drawbacks of the transverse bulk very substantially destroy the advantages inherent in the reduction of the longitudinal bulk.



   The present invention relates to a new means for increasing the initial speed of self-propelling projectiles using a single launch tube and in a single section, with a given initial and constant length. This new means consists in taking the projectile from its initial position in the tube, in a firing position such that it exceeds the rear end of the launch tube,
By this means, the unitary character of the launch tube is maintained, thus systematically eliminating all the inoon- vents which are connected with its splitting in the various forms already proposed.



   Another object of the invention consists in making the rear cover of the launch tube work together, on the one hand to ensure with maximum safety the immobilization of the projectile in the launch tube during the entire period preceding firing and whatever. either the handling and handling of said tube and, on the other hand, to ensure the partial extraction of the projection in order to bring it into its characteristic firing position or firing position, without any prejudice to total safety. tale of the shooter.

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   Another object of the invention consists in conditioning the projectile according to this new means in order to ensure its positive guidance over a distance appreciably greater than that which would result from the usual use of a tube of the same length. and without modifying it.



   Another object of the invention consists in making the launch tube cooperate with complementary guide means for the same purpose.



   Another object of the invention consists in introducing into the tube, respectively in the rear cover, additional locking elements with a view to further increasing the safety of the shooter. ;
Finally, another object of the invention consists in introducing, in cooperation with the projeotile and / or the launch tube, additional security elements both during storage and during the firing and preparation phases thereof.



   These different objects of the invention as well as other characteristic arrangements yet. Are - without any limiting character, described below with reference to the appended drawings in which: FIGS. 1 and 2 show diagrammatically, in two positions ca - characteristics, the new means of launching object of this invention; FIGS. 3-4, 5-6, 7-8 and 9-10 show schematically, in the same characteristic positions, different arrangements allowing the implementation of said new launching means; FIGS. 11 and 12 represent, in longitudinal section and in two characteristic positions, an embodiment of the arrangement shown schematically in FIGS. 3 and 4;

   Figure 13 is a section along the line XIII-XIII of Figure 12, the thong-tie ferrule was removed; Figure 14 is an enlarged view of the labeled part

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 at P14 4 in FIG. 12; Fig. 15 is an enlarged view indicated at F15 of Fig. 11; FIG. 16 represents an alternative embodiment of the part indicated at F16 on fire 12 and relating to the arrangement 'shown schematically in FIGS. 5 and 6; Figure 17 is an enlarged view of the pie indicated at F17 in Figure 16;
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 Figure 18 is a section on line XVIII-XVIII of Figure 16; Figures 19 and 20 show, in longitudinal section and in the two caraotérjstiques positions, an execution of the
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 schematism arrangement in fi> ares 7 and 8;

   Figrure 1 is a section along line XXI-XXI of the fif, ure 20; Fig. 22 is a partial longitudinal section to the right of the posterior end of the tube showing a means which can be used to facilitate,
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 liter the assembly of the guide device applied in the execution ias 3 it¯rures 19, 20 and 21; 3'i: ure 23 is an enlarged view of the part indicated by arrow F23 in fi-ure 22; FIGS. 24 and 25 represent, in longitudinal section, and in the two characteristic positions, an execution of the arrangement shown schematically in FIGS. 9 and 10;
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 Figure 26 shows in longitudinal section the disposi-i tif of Figures 24 and 25 in another characteristic position corresponding to the first phase of firing;

   FIG. 27 represents, on an enlarged scale, the part indicated at F27 in FIG. 24; FIG. 28 represents an alternative embodiment of the
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 part indicated in F28 at fi, 7ure 2 '; Figure 29 is a section along the line XXIX-XXIX of

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 lafi <'ure S8; FIG. 30 represents, in partial radial section, a variant of a safety device for the top cover; FIG. 31 is a section along the line XXXI-XXXI of the
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 f, 9.mre 30; FIG. 2 is a variant of FIG. 30; FIG. 3 is a section on the line XXXIII-XXXIII-; of Figure 32;
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 FIG. 34 represents, in partial radial section, another variant of a rear cover safety device;

   Figure 35 is a section taken along line XXXV-XXXV of Figure 34; FIG. 36 represents, in partial radial section, a variant of the safety device of the sliding stabilizer applied in the execution of FIGS. 24 to 29. the embodiments described below and represented in the appended drawings, are considered exclusively the elements of the launcher tube , the projectile and the mode of launch having a direct relationship with the object of the invention. Thus, all the provisions relating to the firing were deliberately omitted.
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 from the propulsion charge, to the accessories and general arrangements i all the launch tubes, all well known to those skilled in the art,

     capable of being chosen in the usual embodiments and having, moreover, no effect on the value of the initial speed of the projectile. We will consider
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 therefore that the tube Me launch and the pro; leobîles described below must be completed by these known elements.
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  As shown schematically as summarily as possible in fi- ', ures 1 and 2, in kart of a launch tube 1 of a maximum tolerated length L in which is housed and immobilized, in any' also known manner, a self-propelling projectile ( rocket)

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 The maximum distance during which the projectile will be
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 positively, zaided in the tube after the instant of low fire of its propulsion charge is represented either by D if we consider the positive guidance from the body of the projectile,
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 either by the slowness L equal or approximately equal to the length of the tube if we consider the; uids.e positive from the tail unit oondïtiorin6 t% this end.



  At this distance D or. L corresponds to a 1nitile Vo velocity of the projectile.



   In accordance with the invention, this initial speed is significantly increased by increasing the distance along which the projectile is positively guided. It is, this effect, moreover
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 surprising to note that, by the ap-olicition of the new means according to the invention, this distance of positive -ulda7e can be greater, and even substantially greater, than of said length L, respectively of the length of the launch tube.



   In the cases shown schematically in Figures 1 10, briefly,
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 we started from the notion of =; uids., ae positive from the body of the projectile.



   One could schematize the own suitcase by the invention starting from a positive .guidage from the tail of the projection.



   Whatever the representation adopted, in accordance with the invention, the initial speed is substantially increased by
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 eri at -, lying said distance D, And where it is modified by modifying: the starting position of projectile 2 by a movement: of recoil
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 prior to firing such that said distance D becomes, in fact, 6 - .. Ie or approximately 4, -, ale the length L of the tube (D + d).



  The result is therefore that the pro1ootile, after the fire of its propellant charge, will be positively rr, uiM over the length (D + d) of tube 1, hence, automatically, the result will be 1: 1C

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 initial speed Vo '> Vo.



   We can also consider, as the guide distance, the distance D 'which) in fact is equal to the sum L + L', L being the length of the tube and L 'the quantity by which the projectile has been caused to exceed the rear end of the launch tube by a translational movement prior to firing the propellant
The means according to the invention therefore consists in bringing the projectile into an initial position resulting from a prior recoil such that the projectile passes the rear end of the launching tube.



   The invention normally extends to all the correlative arrangements both of the launch tube and of the projectile or, at the same time, of the launch tube and of the projectile with a view to bringing the latter into this characteristic starting position, without prejudice. - judioe of the security required for. ' the shooter,
As shown schematically in Figures 3 and 4 and shown in more detail in Figures 11 to 15, a first embodiment consists of applying a tube 1 of normal length L, the two ends of which are closed by a cover, respectively 3-4.

   These covers are prevented from accidentally opening by the presence of adhesive strips, respectively 5-6, applied in the usual manner. Also, in the known manner, the two ends of said tube 1 are reinforced by ferrules, respectively 7-8, preferably profiled so as to delimit annular pans for the engagement of the aforesaid covers, respectively 3-4.

   These ferrules also serve as a lanyard attachment for carrying the lanoement tube,
Towards its rear end, the tube 1 has at least one hole 9 opening into a cavity 10 which can advantageously be produced by a portion of an annular groove or by a continuous groove in the internal face of the adjacent shell. . The pro @ ectile

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 2 of a known self-propelling type comprises, in accordance with 1.'in.vene, rods, uidage 11, in this case three in number, clearly arranged equian with respect to the longitudi- axis. X-Y nal of the projectile. These rods of.; U3da; e can have any shape, respectively any suitable section.

   They take
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 bear, on the one hand, on the frustoconical part of the head disposed upstream of the cylindrical body and, on the other hand, on the tail 12 of the projectile.



   In the execution of Figures 11 to 15, said guide rods 11 have a section in the form of an angle, this
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 which gives them a -good transverse rigidity while -p6: 3en- a substantial bearing face on the internal face of the launch tube 1. Towards their anterior p ^ .... t3.e, said rods of:; uidae II. each have an oblong notch 13 to the right of which is fixed one end, 21, of an elastic locking blade Li2e, the free end 16 of which is substantially folded back. to 90. This elastic lock is such that it constantly tries a. move away from the longitudinal axis X-Y of the projectile, being forced into a retracted position by the internal wall of the launch tube 1.



     The rear cover 1 is provided with hooking fingers 17 fixed at the end of an elastic blade 18, the other end of which is fixed to said cover, said fingers 17 being normally engaged.
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 .in the peripheral groove z of the posterior part of the em-) 'pennae 12.



  For storage, the projectile. 2 is housed in the launching tube ¯1 and firmly immobilized there by the fingers -18 eri .: secured in the posterior peripheral groove 19, the lids themselves being sealed by the adhesive strips In this position, the elastic locks 15 are pushed into the retracted position by the corresponding part of the inner wall of the tube
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 of launching 1, To bring the projectile in its o-irac-

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 initial shooting technique, just remove the adhesive strip
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 2 and the anterior cover then remove the adhesive tape and exert an axial traction towards the axis on the rear cover 4.

     This drives backwards. the projectile 2 and this recoil movement will be prolonged until the moment when the elastic latches 15 automatically engage in the corresponding openings 9-10.



   By their shape in relative position, said elastic locks
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 ticks ¯1, systematically oppose any additional recoil movement, thus correctly and firmly securing the projectile in its starting position, as shown in particular in 7.a ii; ure 12.



  By exerting an additional axial traction on the posterior opening 11, the fingers 11- are freed from the opening 12, which makes it possible to separate said lid from the projectile 2.
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  ,,, firing of the projectile will be done in the usual manner.



  What will be observed that the projectile will be perfectly RUided both by its cylindrical part and by the guide rods?
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 11 which, gradually, go away in the launch tube 1.



   In the example of Figures 5-6, 16-18, we find all the organic elements of the previous example. Only guide rods 11 of a substantially different shape have been introduced. In fact, widely perforated rods are applied here, the advantage of which is to have very high transverse rigidity for a relatively very low dead weight. The lower edge of said perforated rods 11 is, by any suitable means known per se, fixed to the adjacent elements of the projectile.
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  Towards the front, said rods of r; uida; e li also have a notch 12 but this is extended to the adjacent end of said rods. The elastic latches m-16 are fixed on a part 20 bent at 90, and act as indicated in the previous example.

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In the previous examples, the guide elements' are integral with the projectile and form, in a way, an integral part of the latter.

   The new launching means according to the invention can be applied by employing guide elements in the form of ejectable elements interposed between the protector and the adjacent part of the internal wall of the launching tube. '
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 cement so as to ensure opnortian4ine-vit the ^ w'd3Te of the nroiectile, these elements abandoning the latter by having completely shone the launch tube.
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  A fine execution is shown in lines 7-8 and 19 to 23. In this execution, we find the launch tube 1 of normal slowness L and the usual projectile 2. Between said tube 1 and said projectile 2 is interposed a provisional element of
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 uida; e 21, constituted, in this case. , A, by three shoes 22- "7-24, these shoes being mutually separated by election springs 12-12-1 in ;; adr in blind holes of the adjacent faces of said shoes. These are such as being normal-lent'rroup, 4, s by constraining said springs 3''iâ''RI 'the whole directory nré-- feel an outer diameter lélrenent less than the inner diameter of the launch tube 1.

   Chique hoof present, 1 -p-rtir from its external cylindrical face, radial bar-ned holes such bare 1Q to which correspond holes ± 9 of the post.5rieu-Îre part of the launch tube 1, In c'.aque blind hole is introduced a piston 30 extended, on the one hand, by a ti'e 31 surrounded by a return spring 32 and, on the other hand, said piston 30 has a protrusion 33 with a rounded end forming a stopper.



   As shown schematically in Figure 22, to introduce the pro-
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 ectile 2 with said uids.e element 21, a mounting ring 34 is used, the inner diameter of which is exactly the same as that of the launch tube 1 and the width of which is greater.
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 greater than the diameter of the lo: -emente .1ê the stoppers. This bn.t-rue 34. Maintains all the stoppers 3 ihnl1 their

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 retracted position against the elastic tension of the return springs 32.



   By normally introducing the projectile 2 into the launch tube 1, said guide member 21, temporarily held by the mounting ring 34, is forced back into the tube by the shoulder 35 presented by the projectile in the adjacent zone. between the cylindrical tail and the adjacent frustoconical part of the body.



   When said retainers reach the height of the aforesaid holes 29 of the launch tube, they engage therein majs, by the combination of the thrust effect which continues on the projectile and the inclined shape of the downstream wall 36 of said holes 29, said retainers are again returned to the retracted position against their return spring 32, which therefore normally allows the projectile to be brought into its storage position in the launch tube 1 and to be fixed thereto by any suitable means, for example by the rear cover with its catching fingers 17 integral with an elastic blade 18 cooperating with the peripheral groove of the rear part of the stabilizer , as previously described. :

   
This arrangement will, moreover, after having removed the adhesive security tape, to remove the cover by exerting an axial traction on the projectile with a view to partially extracting it from the launch tube. During this axial movement ,! the projectile will systematically drive the provisional guide element 21 until the moment when the stops will again be in the presence of the holes 29 of said launch tube. By inserting the stops in said holes will be marked the starting position of the projectile and the setting thereof in its corresponding firing position.

   (near firing of the propellant charge, the projectile moving in the launch tube 1 drives the provisional guide ring 21 over the entire slowness of the tube, hence

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 As a result, the projectile is positively guided over this entire length. When said guide element 21 leaves the mouth of the launch tube, its three constituent shoes are projected radially under the effect of ejection springs 25-26-27, which completely frees the projectile from this temporary element. guidance 21, the relative wind could also advantageously be used to promote or ensure the election of said shoes.



   This guiding element can also and very favorably be kept integral with the projectile at all times not only in the launch tube but throughout its trajectory after firing its propulsion charge. Almost favorably, in this case, these guide elements can be conditioned so as to form the tail device.



   A particularly surprising consequence of such an embodiment is found in the fact that the stabilizer device is conditioned and mounted so as to be able to slide on the cylindrical tail of the projectile. Means for locking in the correct position are provided both in the rest or storage position and in the firing position. By way of example, one execution is shown in Figures 9-10 and 24 to 30. In this embodiment, the tail 12 is movable on the Ion? of the cylindrical tail 38 of the projectile 2.

   For this purpose. said tail 12 has a bore 38 having a slightly conical rear section 39, a frustoconical front section 40 corresponding to the taper of the adjacent part of the head of the projectile, this. the anterior conical part being extended by a cylindrical bore 41 of slightly larger diameter. that of the aforesaid bore 38, this bore 41 opening into an annular groove 42 of triangular-shaped section.



   On the anterior peripheral part of said tail 12 are fixed elastic bolts 43, the folded head of which tends to move away from the longitudinal axis X-Y of the projectile due to

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 their shape and elasticity. The projectile at the anterior end of the cylindrical tail 37 also carries elastic bolts, the folded head of which is normally biased so as to engage in the aforesaid annular groove 42 of the sliding tail 12.



   The elastic locks 44 are made so that their retraction force is appreciably less than the effort of the elastic locks 43.



   The posterior end of said cylindrical tail 37 of the projectile has a peripheral rib 45 also of trianular section. The launch tube 1 has, towards the rear, holes 46 corresponding to the aforesaid elastic latch 4 of the tail. The front cover ± is sealed by an adhesive strip 5 while the rear cover 4 is sealed by an adhesive strip 6. Said rear cover 4 also carries profiled elastic strips 47 whose profile, dimensions and relative position are such that 'they are engaged by the aforesaid peripheral rib 45.



   As additional security, in particular for transport, said elastic strips 47 are positively applied to the corresponding part of said rib 45 of the projectile by a stop 48 capable of oscillating about an axis 49 integral with the cover, these stops 48 being permanently stressed. in their erased position by a return spring, 50 but being prevented from moving as long as the cover .1 is in the closed position, expected that the rear part of said stops 48 is pressed against the corresponding part of the launch tube
1.



   The posterior part 51 of said cylindrical tail
37, just downstream of the aforesaid peripheral rib 45, is slightly conical so as to cooperate with the aforesaid bore ooni-., That 39 of the rear part of the tail 12 to ensure

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 a tightening of the latter when it is brought to its normal position on the projectile,
Therefore, 'normally, for storage, transport and
 EMI15.1
 various handling operations, as shown in fip> ure 2d., the projeotile 2 is loe in the launch tube 1 and firmly immobilized by the profiled blades 41astimues j1, themselves immobilized by the oscillating stops 8 .

   In this position, the sliding tail unit 12 is held forward of the tubular 1'J'1e'H 37 by the enta, 'cment elastic locks it solid'1.ire8, on the one hand, the projectile and enr: a>; és, on the other hand, in the annular groove of the tail. The adhesive strips 506 prevent any inadvertent movement of the lids, respectively
 EMI15.2
 2- !. For the preparation of this device for firing, it suffices, as in the previous examples, to tear off the adhesive strips 5-6, to remove the front cover µ and to exert an axial traotion on the back cover 4.

   This drives the projectile 2 in its movement which, in turn, drives towards the arch.
 EMI15.3
 riére the empennage 12 until the moment oll the 41astic bolts 12 that it carries in; a; ent in the holes 46 present by the rear part of the launch tube 1. It will have been observed that, Dar the spacing of the abutments there with respect to the tube of 1-tncement.1, these mounds, dàaent requested by their return spring, released the elastic blades.! 1. 'By a com-11,5- adauat tensile force, the vat! can be separated from the projectile.



  The latter, as shown in FIG. 24, is thus in the firing position. After the firing of his propellant charge, he. will be positively guided throughout the slowness of the tube. Tending the; first phase of the axial movement of the projectile, the tail vlin- '
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 drique It will oouliss in the einpenna <è 11 until the moment when the conical part 21 - morse taper - is inserted in the conical bore 1 39. At this moment, the projectile is again normal. lly formed with its circular head, its cylindrical tail!

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 and its winged tail.



   At the end of this first phase of the translational movement of the projectile, the elastic latches 43-44 have conveniently erased due to their elasticity%
These means are obviously very variable both as regards the suitable conformation of the tail unit and the said! locks and security device,
For example, in Figures 30 to 55, there are shown three variants of the safety device of the securing means of the rear part of the prorjectil- to the rear cover. In the first of these examples.

   according to fibers 30-31, the oscillating stops 48 have been replaced by planes 52 in the form of a ring portion mutually separated by springs 53 working in compression such that, when said shoes are released from the stress of the launch tube 1 in which they are engaged when the cover 4 is in the closed position, said shoes are projected so as to free ipso facto the elastic strips 47 gripping the peripheral rib 45 presented by the rear part of the projectile.



   In the execution of the fibers'! 2-3'5, the device immobilizing the elastic lamellae 47 consists of oames 54 integral with the cover and whose profile of the inner face 55 adjacent to said lamellae. !! is such that, by a given angular displacement of said cover 4 around the general axis X-Y of the projectile, said lamellae ± are either immobilized or released.

   Finally, in the example of FIGS. 34- and 35, the peripheral rib 45 of the two preceding examples is replaced by three sections of ribs 56 cooperating with small posts 57 integral with the cover 4 such that, depending on the position an 'ular of the latter capable of being displaced by rotation around the longitudinal axis XY of the projectile, said rib sections are either hooked to said brackets 57, or li-

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   berries,
Many other executions can still be envisaged.



   Finally, additional security means can also be provided, in particular during the storage period as well as during transport and handling. Such an additional security is, by way of example, shown in FIG. 36. It consists in cooperating at least one notch 58 of the sliding tail 12 with a latch 59 fixed at the end of an elastic strip. 60, the other end of which is attached to the corresponding part of the lanoement tube 1.

   This locking device is such that the elastic blade 60 tends permanently to move the latch 59 away from said notch 58 while the rear cover 1 constrains said elastic blade and maintains the latch 59 in said notch 58 as long as said cover is in the closed position. Indeed, after having torn the adhesive strip 6, by exerting a traction on the rear cover 4, a traction is exerted on the projectile 2, while releasing the elastic strip 60 since the latter is integral with the launch tube 1. which is relatively fixed.



   'When the truncated part of the beast of the projectile, adjacent to its cylindrical part 37, comes into contact with the pinion 12 in the last phase of the projectile's recoil movement, the elastic latch 43 comes into contact with it. of the orifice 46 in which the lock 59 was previously engaged.

   Thus, said tail unit 12 will be immobilized in the correct position, as previously described,
It is thus established that, starting from the revelation of the new means of launching self-propelling projectiles by a tube of given length, it is easily possible to envisage numerous means not only for applying this new mode of launching, but also for introducing safety measures. multiple so 'hanged

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 the period of storage, transport and handling only during the preparatory phase for the firing of the propellant charge of the projectile.



     The invention therefore extends both to said mode of launching and to any means implemented to ensure its application, respectively to ensure its application with maximum safety.



   It also goes without saying that the device according to the present invention could be combined with any other means or device capable, for a given length of tube in the resting position, of ensuring a maximum positive guiding position of the projectile.



  To this end, in particular, this positive upstream guiding device could be combined with any suitable downstream positive guiding device. Surprising differences would thus be achieved between the lengths of the tubes, respectively in the rest position and in the rest position. @positoin shooting.



   CLAIMS.



     1, - New means for increasing the initial velocity of self-propelling projectiles using a launch tube of given length, characterized in that it consite to bring the pro-. jectile in the initial firing position such that it exceeds the rear end known as the launching snorkel.

 

Claims (1)

2.- New means according to claim 1, characterized in that it consists of the combination of a single launch tube of Ion / normal Killer, a self-propelling projectile and, between said launch tube and said projectile , at least one means for immobilizing the projectile in a firing position such that it passes the rear end of said launching tube. 3.- New means according to claim 1, characterized in that it consists in bringing the projectile into the firing position by pulling on the rear cover of the launch tube ,, the cover being, for this purpose, temporarily secured to the <Desc / Clms Page number 19> projectile. 4.- New means according to claims 1 and 3, characterized in that it consists in bringing the projectile into the correct firing position by pulling on the rear cover of the launch tube, at least one bolt d. 'stop being, for this purpose, interposed between said projectile and the rear cover of the launch tube. 5. New means according to one of the preceding claims, characterized in that it consists in promoting the positive guidance of the projectile over the entire length of the launch tube, the. projectile having been brought into the firing position so as to exceed the rear part of said launch tube, by complementary guide elements carried by the projectile. 6.- New means according to @ indication 5, characterized in that the complementary @uidage elements carried by the .projectile are such that their edges or extremities are arranged on 'a fictitious cylinder whose diameter is equal or approximately equal. to the inside diameter of the launch tube. 7.- New means according to claims 5. and 6, characterized in that the complementary guide elements nortés by the projectile form an integral and final part thereof. 8. New means according to claims 5 and 6, characterized in that the complementary guide elements carried by the projectile are temporary elements held together in the launch tube and ejected when the projectile leaves the launch tube. 9.- New means according to claims 5 and 6, charac- terized in that the complementary idae element carried by the projectile is constituted by the stabilizer or tail device made axially movable with respect to the tail of the prop. <Desc / Clms Page number 20> jeotile. 10. New means according to one of the preceding claims, characterized in that the rear part of the projectile is temporarily secured to the rear cover by elastic elements. 11.- New means according to one of the preceding claims, characterized in that the correct position of the projectile in its firing position, that is to say protruding behind the launch tube, is determined. , respectively limited, by the cooperation of fixed elastic elements, on the one hand, and in relation to a hollow part or orifice, on the other hand. 12. - New means lon claims 10 and 11, characterized in that the attachment force of the elements determining the correct position of the projectile in its firing position is greater than the attachment force of the elastic elements securing the projectile. to the back cover. 13. New means according to one of the preceding claims, characterized in that the fastening elements between the rear cover and the rear part of the projectile are rigid elements. 14.- New means according to one of claims 10 to 12, characterized in that the securing elements between the oouvercle and the rear part of the projectile are such that said rear cover can be separated from the projectile by a tensile force. . 15.- New means according to claim 13, characterized in that the securing elements between the cover and the rear part of the projectile are such that said rear cover can be separated from the projectile by a rotational movement. 16.- New means according to one of the preceding claims, characterized in that, more particularly for the <Desc / Clms Page number 21> storage, transport and handling, at least one safety element, respectively hooking element, is interposed between the rear part of the projectile and the adjacent part of its housing, ie therefore of the launch tube and / or of the rear cover. 17.- New means of increasing the initial speed of self-propelling projectiles without increasing the length allowed for transport of the launch tube; ad hoc projectiles and launching tubes, substantially as described above and illustrated in the accompanying drawings.