ES2612201T5 - Small or medium caliber automatic cannon - Google Patents

Description

DESCRIPTION

Small or medium caliber automatic cannon

The invention relates to a small or medium caliber automatic cannon with a gun tube mounted in a gun or cradle housing, wherein the gun tube is surrounded by a tube holder attached to the gun or cradle housing and, taking into account the recoil of the tube, it extends to the area immediately behind the mouth of the gun tube, which is made as a tubular element that encompasses the gun tube on all sides, its internal diameter being a predetermined magnitude greater than the diameter external of the gun tube, in which between the inner wall of the tubular element and the outer wall of the gun tube are provided, at least at the front end of the tubular element, support elements that are fixedly attached to the tubular element and its distance of the outer wall of the gun tube has a measure such that the backward movement of the gun tube is guaranteed, but radial oscillations or flexions of the gun tube are counteracted by in front of the support element.

The problem with automatic cannons of this type is that unwanted oscillations of the tube with respect to the radial direction of the gun tube occur when firing while standing or in motion. These can influence the dispersal of the weapon in the system. Until now, attempts have been made to counteract the radial oscillations that occur in the tube by the corresponding rigidity in the construction of the weapon tube. The problem is aggravated because, due to the use of intelligent ammunition, increasingly complex and heavy modules in the muzzle (muzzle brakes) have been necessary, which have been partially equipped with electronic modules, for example, for speed measurement and / or for programming ammunition. Therefore, problems with the dispersion of the weapon due to the oscillations of the tube accumulate.

Document FR 972 500 A describes a portable firearm with a recoil fire tube. Document FR 596 175 A describes a large-caliber weapon with a two-piece weapon tube, the weapon tube of which is carried by cables. DE 707201 C describes a tube gun with a tube cover that surrounds the gun tube and enables recoil of the gun tube.

The invention aims to achieve a small or medium caliber automatic cannon in which the gun tube is supported in such a way that the radial amplitudes of the gun tube that are produced when firing due to the oscillations of the tube are reduced. .

The solution of this object is achieved according to the invention with the characteristics of claim 1. Advantageous improvements of the invention are described in the dependent claims.

A basic idea of the invention is to surround the gun tube with a tube holder that is brought up to immediately behind the mouth area of the gun tube. This tube support is fixedly attached to the weapon housing or the cradle and is reinforced in such a way that it counteracts the oscillations that occur in the tube. This is achieved by means of support elements arranged in the tube holder whose distance from the outer wall of the gun tube is such that a retraction of the gun tube is guaranteed without obstacles but the radial oscillations or flexions of the gun tube are transferred by these support elements to the tube support and are cushioned by it.

If fired without a tube holder, the gun tube vibrates and local swing bellies are formed where the swing amplitude is greater than elsewhere on the gun tube. The places of high amplitudes depend on the properties of the weapon tube, for example the length, stiffness and material of the weapon tube and can be determined by simulation or through experiments. Particularly effective damping can be achieved if the support elements are arranged in places with high oscillation amplitude relative to other places, in particular with the highest oscillation amplitude.

The tube support can be made in a lightweight construction and the shaping can be such that high rigidity is achieved. Due to the lightweight construction, a justifiable measure of unbalance can be achieved, so that in stabilized systems the stabilization quality is not essentially adversely affected.

The tube holder is essentially made as a tubular element whose inner diameter is a predetermined magnitude greater than the outer diameter of the weapon tube. The tubular element can have different cross sections. Thus, its internal cross section, for example, at least in a partial sector of its length leading to the mouth of the weapon tube, has a circular, oval, elliptical or also polygonal shape, for example rhombic. In the case of cross sections with different internal diameters, it has been found to be advantageous that the internal diameter is greater in the direction of elevation of the movement of the gun tube than the internal diameter in the direction of the azimuth.

In the case of a particularly advantageous embodiment, the tubular element with a circular internal cross-section has at least a part of its length a cap part that can be arranged, for example, on the upper face of the tubular element and has an essentially shaped cross section U or V and is positioned in such a way that a continuous channel is formed between the tubular element and the cap part. This cap part serves, on the one hand, to further strengthen the construction of the tube support and also has the advantage that through the interior space made as a continuous channel, in the case of a gun tube with electrical modules, they can be led electrical connection lines to the muzzle area of the gun tube.

An exemplary embodiment of a gun tube for a small or medium caliber automatic cannon with a tube holder will be explained in detail below by means of the accompanying drawings.

In the drawings they show:

FIG. 1 in a schematic representation of the weapon tube of an automatic cannon otherwise not shown in a top view;

Fig. 2 the gun tube according to fig. 1 in a side view;

Fig. 3 the weapon tube according to figures 1 and 2 in a longitudinal section along the line C-C in fig. one;

Fig. 4 the weapon tube according to Figures 1 to 3 in a slightly reduced perspective view; and

Fig. 5 a cross section through the gun tube along line D-D in fig. 3.

Figures 1 to 5 show the weapon tube 1 of an otherwise unrepresented automatic cannon which is mounted in a weapon housing 2 only indicated.

A tube support is provided in the weapon housing 2, which has a tubular element 3 that surrounds the weapon tube 1 and is guided from the weapon housing 2 to the area immediately behind the mouth 1.1 of the weapon tube 1, which it can be provided with additional modules in the muzzle, such as a muzzle brake, as well as electronic modules that are known per se and will not be described in detail. The distance from the front end of the tubular element 3 to the mouth of the weapon tube is chosen so that the recoil of the tube is taken into account and this can take place without obstacles.

Support elements 5 are arranged at the front end 3 of the tubular element 3. The arrangement can be deduced more precisely from Fig. 5. The support elements 4 are distributed around the contour of the tubular element with an angular distance of approximately 120 ° and fixedly attached to the tubular element 3. The distance of the support elements 4 from the outer wall of the gun tube 1 is such that on the one hand an unobstructed recoil of the gun tube 1 is guaranteed under all conditions, that is, even in case of high temperature, and also the radial oscillations or flexions of the weapon tube 1 are absorbed by the support elements 4 and transferred to the tubular element 3.

Through research, it was determined that when shooting without a tube holder at the place through which the D-D cut in fig. 3 is where the maximum oscillation amplitude occurs. For this reason the support elements 4 are arranged in the area of this place, so that an effective damping of the oscillation results with a small number of support elements and therefore little additional weight.

As can be deduced from fig. 3, through the length of the tubular element 3 other support elements 4 and 6 are distributed. The tubular element 3 can have different diameters through its length depending on the thickness of the gun tube 1. Thus, for example, in the thickened rear zone 1.2 of the weapon tube, the inner diameter of the tubular element 3 is greater than at the front end and the support elements 6 are adapted accordingly.

On the upper face of the tubular element 3, which has at least in its front area a cross section with a circular shape, a cap part 3.1 is arranged on a part of its length, which as can be deduced from FIG. 5 has an essentially U-shaped or V-rounded cross section and is welded to the tubular element 3 with its free ends. This cap part 3.1 serves not only for further reinforcement of the tubular support, but also its interior space represents a passageway 3.2 through which, in a way that is not shown, the electrical connection lines connecting the modules can be led electronics arranged in the muzzle area 1.1 of the gun tube with signaling and evaluation units not shown. In the rear area of the tubular element 3 the tubular support is reinforced by another cap piece 3.3.

As can be deduced from Figures 2 and 4, the walls of the tubular element 3 are provided with air passage grooves 7 arranged laterally and running in the longitudinal direction.

Claims (9)

1. Small or medium caliber automatic cannon with a gun tube mounted in a gun housing or cradle, in which the gun tube (1) is surrounded by a tube bracket attached to the gun housing (2) or cradle and, taking into account the recoil of the tube, it extends to the area immediately behind the mouth (1.1) of the gun tube (1), which is made as a tubular element (3) that encompasses the gun tube (1) by all sides, its inner diameter being a predetermined magnitude greater than the outer diameter of the gun tube (1), in which between the inner wall of the tubular element (3) and the outer wall of the gun tube (1) are arranged, at the front end of the tubular element (3), support elements (5) that are fixedly attached to the tubular element (3) and their distance from the outer wall of the weapon tube (1) has such a measure that recoil is guaranteed without obstacles from the gun tube (1), but radial oscillations or flexing are counteracted s of the weapon tube (1) by means of the support elements (5), characterized by that Other support elements (4, 6) of this type are arranged between the inner wall of the tubular element (3) and the outer wall of the weapon tube (1) along the length of the tubular element (3). 2. Automatic barrel according to claim 1, characterized in that the tubular element (3) has, at least in a partial sector of its length that gives the mouth of the weapon tube (1), an internal cross-section with a circular shape. 3. Automatic cannon according to claim 1, characterized in that the tubular element has, at least in a partial sector of its length that gives the mouth of the weapon tube, an oval or elliptical internal cross section, in which the internal diameter in the elevation direction the movement of the gun tube (1) is greater than in the azimuth direction. 4. Automatic cannon according to claim 1, characterized in that the tubular element has, at least in a partial sector of its length that gives the mouth of the weapon tube and at least part of its circumference, a polygonal internal cross section , in which the internal diameter in the direction of elevation of the movement of the weapon tube is greater than in the direction of azimuth. 5. Automatic cannon according to claim 2, characterized in that the tubular element (3) with a circular cross section has at least a part of its length a cap part (3.1) with an essentially U or V cross section. , which is positioned and welded to the tubular element (3) so that a continuous channel (3.2) is formed between the tubular element (3) and the cap part (3.1). 6. Automatic cannon according to claim 5, characterized in that the cap part (3.1) is arranged on the upper face of the tubular element (3). 7. Automatic cannon according to claim 5 or 6, characterized in that in a weapon tube (1) with electronic modules, electrical connection lines are led through the continuous channel (3.2) to the mouth area (1.1) of the tube weapon (1). Automatic cannon according to one of Claims 1 to 7, characterized in that the walls of the tubular element (3) are provided with air passage grooves (7) for at least part of their length. Automatic cannon according to one of Claims 1 to 8, characterized in that the support elements (4) are arranged in the place or in the places where or where without tube support a high amplitude of oscillation occurs compared to other places, in particular the greater oscillation amplitude.