DE2364926A1 - SHELTER FLOOR WITH STABILIZED ROTATION - Google Patents

Description

M 4542

Gun projectile with stabilized rotation

It is known that the smaller the drag forces acting on projectiles in flight, the The greater the range of the projectiles and the shorter the time to get from the muzzle to any given range to reach. It is also known that the drag forces that slow down a projectile in flight can be reduced by giving the body of the projectile an effective aerodynamic shape or that the diameter of the projectile is reduced.

The effective aerodynamic profiles have relatively long conical front sections. The usual normal bullets have a relatively short front section followed by a central cylindrical section and a pointed rear body. The drag forces can be reduced significantly if you hit the projectile there is a much longer conical anterior section which progressively point into the posterior Body passes over. However, this shape is not particularly suitable for launching a gun, since the

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long conical bodies do not have the necessary centering supports.

A known technique is to provide _r rings surrounding the projectile at desired locations to fill the space between the body of the projectile and the gun barrel wall. These rings are normally designed to disengage from the projectile under the action of centrifugal and aerodynamic forces when the projectile leaves the muzzle. The relatively massive pieces so formed can often pose a serious hazard to those in the vicinity of the gun. In addition, they affect the orientation of the projectile or the flight path when they detach from the projectile.

Another known method is to provide the projectiles with annular devices that do not detach from the projectile after being fired. However, these devices destroy the streamlined or aerodynamic profile of the projectile, increase the drag forces considerably and impair the flight of the Floor.

According to the invention, a control ring is attached to a rear part of the projectile during launch engages in the gun barrel twist and thereby gives the projectile a rotation. The body progressively rejuvenates from a maximum diameter just in front of the control ring to the forward end of the projectile body. This conical part is provided with circumferentially spaced projections which are fixed sit and extend radially. Each protrusion has an outer surface parallel to the longitudinal axis of the body and touches the gun barrel wall, relative to the body

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correctly centered on the longitudinal axis of the gun barrel. The projections are designed in such a way that they reduce air resistance reduce to a minimum during the flight of the projectile after launch, and the main part of the radial extension of the projections is within the maximum diameter of the body. The control ring on the one hand and the projections, on the other hand, are arranged so that the center of gravity of the projectile is between them lies.

In order to minimize air resistance, the projections are preferably axial relative to their width elongated and also preferably arranged obliquely with respect to the longitudinal axis of the projectile to the rotational speed of the projectile during the flight to be controlled favorably.

The maximum diameter of the projectile is preferably immediately in front of the control ring. The maximum diameter is preferably, but not necessarily, less than the diameter of the outer surfaces of the Protrusions so that the body of the projectile does not touch the gun barrel wall during launch.

The control ring can consist of a non-metallic deformable material so that parts of the control ring are constrained to engage in the grooves of the gun barrel twist. To avoid any danger to people in the vicinity to eliminate the gun, the control ring must be designed in such a way that it can be divided into a large number of small, non-fatal pieces will break when detached from the projectile. Careful choice and precise fraction can be greatly benefited by the fact that one several irregularities be it in the form of cavities (by putting the material on mechanical, chemical or other type eliminated) or a second material

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added as a filler. These two methods cause a concentration of stress and if that through the gun barrel wall If the stress intended during launch is removed, the ring will break into numerous small ones Pieces.

The non-metallic control ring can be attached to the pointed rear portion of the body. To the transfer To facilitate rotation, the surface of the projectile can be roughened at the point of the control ring or notched. During the launch, the ring engages the surface irregularities of the body one and so constitutes an inevitable transfer of the Rotation safe. The ring is attached to the rear end of the bullet during handling and during insertion held in the gun barrel (loading and stacking) by being between the ring and the projectile body an intervention takes place. This engagement can be achieved, for example, by an annular groove formed in the projectile body is formed and in which a similar annular projection engages on the inner Surface of the ring is provided. The engagement can also be by screws and pins or by a separate one non-metallic ring can be achieved, which is detachable and similar to a piston ring. The previously mentioned ring performs four functions at the same time, namely the centering of the projectile in the gun after the launch, the hermetic gas seal, the torque transmission to the Projectile and the transmission of thrust.

An annular extension in the form of an end piece can be releasably attached to the rear part of the projectile body will. The outer surface of the extension forms an extension of the rear part of the projectile body. This additional end piece reduces air resistance and thus ensures a greater range. at a further reduction in air resistance

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the extension with an end piece reduces the gyro stabilization factor. At high speeds the bullet is very stable without the end piece extension, so that the influence of destabilizing the tail extension is acceptable. Everyone's stability Projectile decreases and is minimal in the ultrasonic range (i.e. close to the speed of sound at Mach number 1). The tail extension creates instability when used under these departure conditions. the End piece extension is therefore only available under departure conditions used in which their destabilization influence is sufficiently small. In practice this means that the lengthening at high speeds actually is effective.

The tail extension is fixed but releasably attached to the main body of the projectile. According to one embodiment, screw threads are used, while according to another embodiment, a quickly releasable connection is provided. The exact type of connection is not important, with the exception of the tail extension can be easily detached or attached to adapt it to the departure conditions.

An end piece extension typically consists of a cylindrical hollow center piece with an outer surface, which forms a continuation of the rear part of the projectile body.

The invention is explained below with reference to Figures 1 to, for example. It shows:

Figure 1 is a longitudinal section of a projectile in a first embodiment,

FIG. 2 shows a section of the projectile along the line 2-2 in FIG. 1,

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FIG. 3 shows a section along the line 3-3 in FIG. 1, and

FIG. 4 shows a section, similar to FIG. 3, of a second Embodiment.

As FIGS. 1 to 3 show, the projectile consists of one Main body 11. In the front end of the body an internal thread 12 is cut, the dimensions of which are as follows are that a detonator can be provided. The outer »profile of the projectile is corresponding in a known manner the known aerodynamic principles designed to ensure an effective profile with low resistance. At a certain point between the minimum front diameter and the maximum diameter, which lies further back, i.e. in front of the center of gravity CG of the projectile, is the main body 11 with four projections 16 provided, which extend radially and are equidistant in circumferential direction. Behind these leaps, however in front of the ring 14, the body of the projectile reaches its maximum diameter. This diameter is preferably slightly less than that of the gun bore. Behind this maximum diameter, that takes Floor evenly in the form of a "ship's stern". The embodiment of Fig. 1 shows one of those described above Means to keep control ring 14 on the projectile body during handling and pre-launch loading 11 to keep. This holder consists of a groove 17 which is formed in the projectile body, and a locking projection 18, which is provided on the inside of the control ring.

The distance between the center plane of the ring 14 and the projection 16 must preferably be about one to two times the caliber of the bullet.

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The shape and orientation of the projections 16 on the front bodies of the projectile are such that they reduce the air resistance during the flight of the projectile Reduce to a minimum, but ensure lateral support and centering inside the gun barrel. The projections 16 have an outer surface that comes into contact with the wall of the projectile barrel and their dimensions are preferably such that they are in contact with at least three twist sections (the "Sections" are the distances between the twist grooves).

Each protrusion 16 has, in side elevation, a front top surface 215 that extends rearward and toward the center of surface 217 curves to meet body 11 at the rear end of the projection. Besides, the Protrusion 16 has a rear upper surface 219 that curves rearward and toward the center of surface 217 to meet the body 11 at the rear end of the projection. Each projection 16 takes a plan view forward in the form of a front conical end starting from its maximum width and also backwards in shape a rear conical end starting from its maximum width. The exact profile of the protrusion 16 is determined by the known aerodynamic principles to produce an effective aerodynamic profile with low To get resistance.

As previously mentioned, each protrusion 16 extends axially, that is, compared to its maximum width is long. Each protrusion 16 may be axially oblique to the longitudinal axis of the projectile, as shown, and its radial height can also be such that only the outermost radial part of each protrusion 16 extends over the part with the maximum diameter of the body 11 extends. Likewise, most of the height of the projections 16 lies within the maximum diameter of the body. Of the

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The helix angle is dependent on the initial velocity of the projectile and the desired degree of the Rotation is chosen and can be of the same order of magnitude and direction as the inclination of the gun barrel twist get lost. Reduce the shape, size, and orientation (described above) of the protrusions 16 the axial drag forces on the projectile in flight and also the deterioration in the degree of rotation of the projectile in flight to a minimum.

The control ring 14, which is attached to the conical rear part 13 of the body, consists of a non-metallic, deformable material e.g. a synthetic plastic material. The maximum diameter of the body 11 is smaller than that of the rifling intervals of the gun barrel. Thus there is no contact between the Body 11 and the wall of the gun barrel. The control ring 14 has an outer surface 212 that is cylindrical and extends parallel to the longitudinal axis of the body 11 over a large part of its length. The diameter the surface 212 is slightly larger than that of the twist grooves. The front part of the control ring 14 is with a surface 221 which tapers forward to prevent penetration of the projectile into the gun barrel to facilitate.

The rearmost surface of the ring 14 is provided with a groove 222. The so formed outer Lip 223 deforms slightly depending on the gun's gas pressure during launch and secures such a gas seal.

As soon as the projectile crosses the gun barrel under the action of its gases, the outer surface slides 217 of the front projections 16 on the twist sections, around the front of the projectile in the gun barrel

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to center, and the control ring 14 centers the rear of the projectile.

The outer surface 212 of the control ring is forced to conform to the profile of the barrel twist of the gun beneath the Adjust effect of its gases and the sections of the tape penetrate into the twist grooves so that if the projectile is fired, the ring 14 is given a spin. To this torque transmission of the ring 14 to ensure the body 11 of the projectile, the part of the rear surface 13 in the form of a ship's stern that touches the ring 14, knurled, roughened or notched to bring the ring 14 and surface 13 of the body alternately into contact. The presence These alternating interfaces allow both thrust and rotation of the ring 14 can be transferred to the body 11. The control ring also works during the launch or the Ignition like a gas seal.

The control ring 14 is designed to disengage from the body 11 of the projectile after launch. The ring 14 is designed so that, after detachment from the projectile, it is broken into numerous small harmless pieces breaks. The size and shape of the pieces is determined by the incorporation of breaks in the ring 14 and controlled by the choice of physical properties of the material from which the ring 14 is made. The interruptions can be in the form of longitudinal slots, longitudinal holes, annular grooves (on the inside as well as on the outside), notches or radial holes. The exact shape and location of the interruptions depends on the chosen dimension of the pieces and the physical properties of the material of the ring certainly. In order to make it easier to achieve the correct fracture properties, the physical properties

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shafts of the material from which the ring 14 is made is changed by adding a filler material in the form of discrete particles. The exact The shape of the particles is determined by the physical properties of the filler material and the main material of the Rings 14 and determined by the desired fracture properties.

The rear end of the rear part of the body 11 of the projectile is for the attachment of the detachable end piece 19 hollow. This detachable end piece 19 has the shape of a hollow cylinder with an outer surface 227, which tapers towards the rear and is an extension of the rear conical part 13 of the body 11 of the projectile forms. The process of attaching the detachable end piece 19 is such that it is quick and easy Attaching and loosening the end piece 19 allows. At the same time, the attachment must be strong enough to withstand the tension of launch and flight. The projectile can with and without an end piece 19 accordingly detonated or shot down under the circumstances.

With a long range, i.e. at high muzzle velocities, it is necessary that the end piece 19 is attached in order to reduce the resistance and thus to increase the range. The extension with the end piece 19 reduces the stability range of the projectile, however, the stability is more than suitable for high speeds. For low speeds, especially for critical ultrasonic speeds, the stability of all storeys is compared to large ones Speeds are reduced in accordance with known aeroballistic principles. For ultrasonic speeds the projectile is not stable when it is fired and the extension with the end piece is appropriate. Hence, at these speeds

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at all speeds at which the stability with the extension with the end piece 19 is not sufficient, this is omitted and the stability is achieved again with suitable values.

In a modification of the embodiment described with a fragile and non-metallic control ring, a conventional metallic ring can also be used. The projectile can also be provided with a permanent, non-detachable end piece.

According to a further embodiment of the invention the charge of the upper area is assigned to the detachable end piece to prevent field errors, i.e. to ensure that the additional end piece is always used for long range shots. The charge of the upper area can be arranged in the end piece or partly in and partly around it. In the latter In the case of a flammable pipe, the cargo is preferably surrounded.

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Claims (11)

2354926 Expectations 1J cannon projectile with stabilized rotation, characterized in that that it has an elongated body (11) that a control ring (14) on a rear part of the Body (11) is attached, which can engage in the gun barrel twist during launch to give the projectile a Rotation to give that the body starting from a maximum diameter in front of the control ring (14) to the front end of the body (11) progressively tapers conically that the conical part in front of the Center of gravity of the projectile is provided with projections (16) which extend radially, and fixed and in the circumferential direction are spaced so that each protrusion (16) has an outer surface which is substantially runs parallel to the longitudinal axis of the body and the wall of the gun barrel for centering the front part of the projectile in this touches, and that each projection (16) is also formed such that the air resistance during the flight of the projectile after launch is reduced to a minimum, the greater part of the radial Extension of the projections (16) is within the maximum diameter of the body (11). 2. Projectile according to claim 1, characterized in that the Projections are axially in the direction of the projectile trajectory compared to their width. 3. Projectile according to claim 2, characterized in that the projections (16) inclined with respect to the longitudinal axis of the projectile get lost. 4. Projectile according to claim 1, characterized in that the maximum diameter of the projectile body (11) is immediate 509827/0118 236 ^ 926 in front of the control ring (14). 5. Projectile according to claim 4, characterized in that the maximum diameter of the body (11) is slightly less than that of the outer surfaces of the projections (16), so that the body does not hit the Gun barrel wall attacks. 6. Projectile according to claim 1, characterized in that the control ring (14) consists of a non-metallic, deformable Basic material exists so that parts of the control ring are forced to engage in the grooves of the gun barrel twist will. 7. Projectile according to claim 6, characterized in that the Control ring (14) after being fired by centrifugal force and / or air resistance from the body (11) is solvable. 8. Projectile according to claim 7, characterized in that the control ring (14) due to the installation of material irregularities> äßigkeit is forced to break into a large number of small pieces. 9. Projectile according to claim 1, characterized in that the Control ring (14) is attached to a rear part of the body (11) which tapers towards the rear. 10. Projectile according to claim 1, characterized in that an end piece (19) releasably at the rear end of the body (11) is attached, and that the end piece has an outer surface which is an extension of the outer surface of the forms the rear part of the body (11). 11. Projectile according to claim 10, characterized in that the releasable end piece (19) has a charge for a higher area assigned. 50982 7/0118 1H Blank page