NO142492B - AFFUTATION-MOUNTED MULTIPLE-ARM WEAPON. - Google Patents

Abstract

Affutation-mounted multi-barreled weapon.

Description

The invention relates to a futtage-mounted multi-barreled weapon. Such a weapon is known from DE-AS 11 27 756.

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This known device is only suitable for firing recoilless projectiles or rockets. With the known device, magazines of rocket tubes are arranged on a starting rack and there secured with locking elements across the firing direction. After firing the rockets, the magazine as a whole, i.e. including the starter tubes, is removed and replaced by a new loaded magazine. This known device does indeed enable a high rate of fire, but it necessarily entails the disadvantages of such recoil-free firing of projectiles. These in and of themselves known disadvantages consist in the fact that a significant flame development takes place behind the weapon, which can put the operating personnel at risk. In addition, with recoilless firing, significant cutting quantities are necessary because the physical recoil impulse must be absorbed by the gunpowder gases.

From DE-PS 11 87 157 a rocket launcher magazine is known, i.e. also a weapon for so-called recoilless firing of projectiles. In devices for recoilless firing, there are no end or breech plates. In contrast, the known rocket launcher includes a transport protection plate at the rear which is destroyed when the rocket is fired.

The purpose of the invention is to provide a rifle mounted multi-round weapon which works as a closed weapon and which is characterized by a high rate of fire due to its consistently high accuracy.

This is achieved, according to the invention, by means of a rifle mounted multi-barreled weapon which is characterized by the fact that it exhibits a charging mechanism serving as an ammunition feed device which comprises at least one closing end plate, which charging mechanism can be locked by means of locking means to a flange block which is attached to the rear end of the barrels , and that the end plate comprises an ignition device for each of the projectiles to be fired, as well as a fitting for a piston rod whose piston cylinder is fixed parallel to the barrels in the flange block.

Further advantageous features of the invention will be apparent from the subclaims and from the following description of the exemplary embodiments

on the invention as shown in the attached drawings.

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Fig. 1 shows schematically and in perspective the weapon and its charging mechanism. !

Fig. 2 and 3 show the charging mechanism in perspective.

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Fig. 4 shows a detail regarding the charging mechanism.

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Fig. 5 shows a projectile in the loading mechanism.

Fig. 6, 7 and 8 show the system used to lock the loading mechanism of the weapon with this mechanism in different positions.

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Fig. 9 and 10 show the position which the weapon assumes during the operations by which the charging mechanism is connected.

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Fig. 11 schematically shows the way in which the charging mechanism is controlled on the weapon.

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Fig. 12 is a section along the line AA' in fig. 11.

Fig. 13 schematically shows a section through the weapon to illustrate the axially arranged firing pin and the position of its spindle during application of the loading mechanism to the weapon.

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Fig. 14 - 16 shows a variant of the larlono mechanism which only consists of an end plate with cartridge cases mounted on it with projectiles in. Fig. 1 shows schematically and in perspective a multi-lobed weapon for which the loading mechanism according to the invention is used.

The arms 1, which are arranged in a number that can easily amount to a hundred, are arranged next to each other and regularly distributed about the weapon's axis of symmetry x x<1>. The legs are supported by a; flange block 2 which, at regular intervals around the circumference, is provided with studs 3, which, as will best be seen from the following description, serve to attach the charging mechanism to the weapon. The charging mechanism 4, which will also be referred to as a breech mechanism, is arranged at the rear end of the weapon and is attached to it by means of a flange or block 5 secured to the flange block 2 by means of the automatically acting locking pins 3. The assembled weapon is supported of a shooting not shown in the drawing. Fig. 2 shows a perspective view of a charging mechanism according to the invention. In the example shown, the mechanism has the form of a metallic construction 6, inside which there are partition walls 7, 8, 9, 10 and II which separate sets of compartments which have the shape of lbp 100. The partition walls inside the metal construction 6 form a rigid assembly in the charging mechanism, ..so that i.a. the lbp serving as compartments for the projectiles can be made to fit together accurately relative to each other. Fig. 3 will make it easier to understand how the legs are arranged in the charging mechanism. It will be seen there that the lugs 100 are distributed in the loading mechanism so that a free space 12 is obtained around its axis of symmetry, which corresponds to an identical space in the weapon itself, and its effect will be described in more detail below. In the drawing, the wall 6 is partially cut away to show how the free space 12 extends along the entire axis of the charging mechanism, and how the tabs are arranged. Fig. 4 shows a part of this device, as one will see the inner dividing walls 10, 11 as well as the legs 13, 14 which pass through these walls and are thus supported by them. In fig. 3 it can be seen that rollers 15, 16, 17 and 18 are arranged which are attached to the metal structure or housing 6 for the charging mechanism and which, in a way described in the following, serve to guide the charging mechanism slidingly into position on the weapon. At the front of the charging mechanism there is a block 5 which is used to attach the charging mechanism to the weapon.

The charging mechanism is closed at the rear by a massive plate 19. When the charging mechanism is in place, this plate constitutes the rear part of the mechanism, and it lies exactly in the extension of the legs 13,14 in which the projectiles are located. This plate 19 carries all the electrical connections necessary for firing each of the volleys.

Fig. 5 shows a longitudinal section through a lbp for a projectile. Lbpet 13 e.g. whose axis is parallel to the longitudinal axis of the weapon and the loading mechanism, has a cylindrical part 20 whose diameter corresponds to the caliber of the weapon. The projectile 21 is located in said cylindrical part. The cylindrical part 20 is extended in the form of another cylindrical part 22 with a different diameter, usually larger than the caliber of the weapon, and forms the firing chamber which contains the gunpowder charge for firing the projectiles. At 23 is| schematically shown an electric detonator connected by a sealing passage to the electric circuit 24 which transmits the fire order, the circuit switching off and on on the back plate. An element of said circuit is connected through the end plate, a piece of which is shown at 19. The reference number 25 shows an element which covers and protects the electrical wires.

The charging mechanism for the weapon is replaceable and further consists of elements for application and attachment. The central space 12 which lies around the axis of the device is used to provide a slide rod for a piston arranged in the middle of the barrel legs of the weapon, which piston, when the charging mechanism is in place, cooperates with the mechanism and |brings it into contact with the weapon, so that the block 5 comes into contact with the supporting block 2. This movement is controlled by e.g. rails which are arranged for this purpose, and on which the rollers 15 to 18 move.

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As shown in fig. 1, the block 2 comprises a certain number of pins 3, the effect of which will be explained in what follows. Fig. 6 shows this block built into the weapon itself by means of a mechanism which locks the charging mechanism 4 to the block 2 which carries the cannon balls. Each pin 3 has a pawl 26 which can revolve around a bolt 27. The rotation of the pawl is provided by a piston whose rod 28 is connected with a bolt 29 to the pawl 26. The pawl has a slot 35 which without clamping converts the rectilinear translational movement of the rod 28 to circular turning movement of the latch 26.

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In fig. 6, the charging mechanism 4 is shown in the locked position, with the rounded end 31 of the latch 26 lying against the sloping profile of

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the block 5 due to the action of a f jaer 30 which opposes the rod 28 for the piston. In fig. 6, the block 2 is shown supporting the cannon legs against the charging mechanism in the active position. In fig. 7, which is practically identical to fig. 6, the mutual positions of the charging mechanism and the weapon during the locking operation are shown, the charging mechanism being pressed into contact with the weapon in the direction of the arrow F^. When the charging mechanism is locked, it is desirable that the normal to the profile of the bearing point 31 between the latch 26 and the block 5 should pass through the point 27 or to the right of this, so that under the action of the recoil which tends to push the mechanism away from the block that carries the cannon legs 2, the latch 26 will not be likely to push back the rod for the piston 28. So that the bolt 27 is not exposed to the recoil force, the hole in which it is placed is given a larger diameter than the bolt, so that when the recoil force acts on the latch, will this be displaced slightly and its circular profile 3 2 lie directly against the circular part of the support 33 and thereby relieve the bolt 27.

In order to release the charging mechanism when it is empty, hydraulic pressure fluid is introduced into the chamber 34 through the line 36. As shown in fig. 8, which is largely identical to fig. 6 and 7, when the pressure fluid is introduced, the rod for the piston 28 will be moved upwards and the latch 26 will be retracted, which revolves on its bolt away from the sliding profile of the block 5. The empty loading mechanism can then be removed and replaced by a load.

Fig. 9, 10 show schematically the different operational steps for placing a charging mechanism on a related weapon: This operation is carried out completely automatically using the relief that the weapon must be moved in two principal planes which are perpendicular to each other or more precisely a horizontal and vertical plan. It can be assumed that the loaded charging mechanism is arranged vertically in a place concentric with the vertical axis of rotation of the weapon or in other words the magazine cavities.

In fig. 9, the weapon 37 is shown with a frame 38 intended to receive the charging mechanism 39 when it is in the operative position on the weapon. The weapon is carried on a mount, schematically shown at 40 and can be raised about the axis 41. At 42 is indicated the vertical axis of rotation for the system. i1 The charging mechanism compartment is shown at 43 with a mechanism in place.

Fig. 10 shows the position of the weapon when a charging mechanism is brought into place. The weapon is arranged vertically above the compartment 43 containing the charging mechanism, so that its axis lies in the extension of the charging mechanism. The rod for the piston 44 extends along the axis of the weapon and cooperates with the loading mechanism by passing through the shaft hole 12 which is arranged for this byemed. The rod takes the charging mechanism with it and raises it until the breechblock comes into contact with the block which supports the cannon legs against which the breech is held and locked by means of the pins 3 as already described. During operation, the charging mechanism as shown in fig. 10 guided by the rollers 15,16 and 17 arranged on the side surfaces (fig. 3) and rollers on rails 45 as seen in fig. 12, the latter being a section through fig. 11 after the line AA. These rails are carried by the block 2 which supports the cannons. The block 5 for the loading mechanism has two openings 48, one circular and the other oval, into which enter two bolts 47 attached to the supporting block 2. These bolts ensure that the axes of the different gun legs coincide with the axes of the cavity of the loading mechanism, which contain ammunition-i

the ointments.

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The piston used to place the mechanism in place on the gun block is shown in fig. 13. It is placed in the axis of the cannon. It has a fixed outer body 49 and sn sliding rod 50 which ends

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in a piston 51. The two faces of this piston are exposed to the pressure that develops as low hydraulic fluid enters the openings 52, 53. The end of the movable rod for the piston carries a locking device 54 which can turn a quarter of a turn under control of the motor 55 , whose output shaft 56 can occupy two positions separated by an angle of 90 . The power used to turn this motor is hydraulic in the described example, but could just as well be pneumatic or electric. The output shafts 56 for the engine are extended in the form of a square rudder 57. Inside this r'br and rotatable with it, a rod 58 can slide which terminates in the locking member 54. The axis with which the locking member turns is centered on the piston rod by means of the bearing 59. When the rod

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58 for the piston to be withdrawn, the locking member 54, whose shape is asymmetrical, will penetrate the generally rectangular opening for a fitting attached to the charging mechanism, as soon as the locking member 54 has entered the fitting 60, and after it has been turned a quarter of a turn , the charging mechanism will be attached to the piston rod (fig. 13a and 13b). A new rotation over a quarter of a turn of the locking device is only necessary to release the charging mechanism (fig. 13c and d). The position of this stamp on the weapon is indicated in fig. 13 at the components 2, the weapon's support block and the legs 1 which are schematically illustrated around the piston.

The feeding mechanism of the multi-barreled weapon described can be released and repositioned by means of an automatic operation carried out by means of elements forming part of the weapon itself and acting on other elements arranged for this purpose and the charging mechanism. The design of the charging mechanism and the number of ammunition charges provided may vary. It will also be understood that the number of charging mechanisms arranged in the vicinity of the weapon will depend on the location of the weapon when it is set up. The weapon will preferably be placed on a vehicle and the location of the charging mechanism will be concentric with the axis of the weapon when it assumes a vertical position. The compartments of the charging mechanism can of course be arranged in a different way than vertically, e.g. horizontally or at an angle to the horizontal. In this case, the weapon during charging will have to be brought into line with the corresponding position of the charging mechanism. However, this does not affect the principle arrangement.

In the event that the weapon is set up in the field, the loading mechanism or magazine cavities may be lined up. In this case, the weapon is moved in the horizontal plane to be able to receive the charging mechanisms as this is necessary.

In the foregoing, it is assumed that the charging mechanism was placed

in position on the weapon after being removed from the magazine cavity by means of the piston rod for "a piston located locally in the weapon. It is also possible, for example, to provide two pistons of lesser force arranged outside the weapon diametrically

towards each other. These are then attached to the charging mechanism by fittings or the like placed outside the weapon's housing.

Such pistons can also be placed inside the weapon outside its axis, as corresponding channels are then placed in the charging mechanism for this purpose.

In the examples which<!>are described in detail, it is assumed (fig. 4)

that the fire chambers or high-pressure chambers form part of the legs arranged in the charging mechanism. It is, however, possible to separate the chambers from the charging mechanism and arrange them in one with the cannon legs themselves.

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Fig. 14 shows such a device, in that the cannon legs 61, 62 at the ends which lie against the supporting block 2 are provided with high-pressure chambers 63, 64. The ammunition then has the usual shape, i.e. that it includes an eri cartridge case with a gunpowder charge. In fig. 15, the projectiles are designated 65 and 66, while corresponding casings are designated 67 and 68. The cartridge casings are attached by the base plates 69 and 70 to a massive part 71 which forms the weapon's breech.

This part corresponds to plate 19 in the example described in connection with fig. 1 and 3. The arrangement of the cartridges which are attached to the part 71 is enclosed by a relatively light capsule 72 which forms the charging mechanism. Fig. 16 shows a section through fig. 15.

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The placement of the charging mechanism on the weapon itself as described takes place in the same way as previously explained. The entire salvo of ammunition goes into the corresponding lbp, the part 71 being locked by means of the flange block 2 which is part of the weapon. As in the previous case, part 71 of course includes all the elements necessary to fire the ammunition and the profile is such that it is possible to effectively lock the loading mechanism of the weapon by means of pins similar to those indicated at 3, although such is not shown in fig. 15 and 16. A charging mechanism of this type offers, in comparison with previous charging mechanisms, a significant reduction in weight, as the high-pressure chambers are no longer produced by consumables, but are included as part of the weapon itself.

In the foregoing, it is assumed that the weapon at any time only has a loading mechanism containing as many volleys of ammunition as there are cannon lbp to be fed. Depending on the weapon's firing conditions, since it can be fired in the form of separate volleys, it is possible to provide smaller loading mechanisms that are adapted for such a form of firing. Under these conditions, the weapon is provided with several smaller pistons intended to extract the charging mechanisms from their respective compartments and feed them to the weapon, this being done in the same way as already described in connection with a single charging mechanism.

Claims (5)

I 1. Assault-mounted multiple-round weapon, characterized in that it exhibits a charging mechanism serving as an ammunition feeding device, which comprises at least one closing end plate (19), which charging mechanism is lockable by means of locking means (3) to a flange block (2) which is attached to the rear end of the barrels (1), as the end plate (19) comprises an ignition device (23) for each of the projectiles to be fired, as well as a fitting (60) for a piston rod (50) whose piston cylinder (49) is attached in parallel with the runners (1) in the flange block (2). 2. Affutage-mounted multi-barreled weapon according to claim 1, characterized in that the charging mechanism (4) consists of several barrels (100) which receive the projectiles and their propellant charge, which barrels are held together in the firing direction at the front end by a flange (5) which can be inserted into the flange block (2), as the runners ( 10 0) in the firing direction, the rear end is closed by the end plate (19). in 3. Assault-mounted multiple-barreled weapon according to claim 1, characterized in that the charging mechanism (4) only consists of the end plate (19) on which cartridge cases (67, 68) with mounted projectiles are attached, and that the barrel of the weapon (1) in the direction of fire at the rear end are designed as cartridge chambers for recording in for the cartridge sleeves (67, 68). in 4. Assault-mounted multiple-barreled weapon according to one of claims 1-3, characterized in that the locking means (3) consist of a latch (26) which is rotatable about an axis (27) at one end, the other end of the latch having a rounding ( 31) which interacts with a cone-shaped inclined surface on the loading mechanism (4), is under bias in the direction of engagement and is connected to a piston/cylinder unit (28) for release. in ! 5. Affutaje-mounted multiple-barreled weapon according to one of claims 1-4, characterized in that the fitting (60) consists of a recess in the end plate (19), and that the piston rod (50) has a locking device, (54) which, when turned, can be axially fastened in the recess (60)L i