DE3512860A1 - STORAGE FOR A PISTON TUBE - Google Patents

Description

The invention relates to a storage for a, mounted in the return jacket of a large-caliber gun Gun barrel, the return jacket having a sleeve, which encloses the rear part of the gun barrel.

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In such a weapon, the return jacket is rigid attached to the mount, while the tube, bottom piece, etc. belong to the return system that is involved in the recoil movements part of the gun. In order to enable the recoil movements, the barrel must therefore be displaceable be mounted in the return jacket.

When storing, between the gun barrel and the return flow

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mantel a certain clearance, due to the dimensional changes caused by the heating of the gun barrel to enable. Such a game is undesirable for other reasons, but particularly because it becomes a Increase in unwanted shot dispersion leads. One caused by the gun itself when it was fired Shot dispersion has heretofore been accepted primarily because of the fact that the contribution from the firing controller the shot spread has dominated. The efforts were therefore mainly focused on the

Problem focused like this post from the firing controller to be reduced.

Now that it is possible to more accurately determine the position of a target and in the firing controller however, more complicated computers are used, these conditions vary. So far, the one through which Firing control device made contribution to the distribution of shots from 3 to 5mrad, today it has reduced to 1 to 2 mrad, about the same order of magnitude as the firing spread. I.e. the efforts will now be focused on the problem of how to reduce gunfire dispersion.

The gunfire dispersion is mainly caused by the vibrations of the gun barrel and elevation system, generated when fired. The vibrations

have several causes and can, for example, from the forces in the reverse brakes and the recoil forces the upper mount and the through the bottom piece when closing, opening and loading the chamber of the barrel generated forces depend. An investigation of these vibrations has shown that the game between the Barrel and the return jacket made a significant contribution to the gun scatter.

Measures to limit gun dispersion have also recently been implemented. This was mainly achieved by introducing a special damping device into the weapon system. However, such a damping device increases the weight and cost of Gun structures and does not specifically reduce the gun dispersion caused by the clearance between the barrel and return jacket is caused.

Through the SE-PA 8103297-1 a construction of the storage is already known in which the game is largely eliminated is. More precisely, the bearing has a bearing sleeve with several leaf springs that run along the circumferential surface of the running tube are distributed and in a plane perpendicular to the longitudinal axis of the running tube with a certain Press spring force to the surface.

Thanks to the rests on the circumferential surface of the running tube

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Leaf springs compensate for the play between the barrel and the return jacket. Anything from the heating of the running pipe Dimensional changes caused during firing are effectively compensated for. As a result of the mass of the recoil system and the gravitational forces acting on this, the spring forces of the leaf springs must be large. That means undesirable wear between the bearing and the circumferential surface of the running tube. To this wear too reduce the outer surface of the runner with a larger cylindrical part provided so that the

Leaf springs only temporarily engage with the outer surface of the barrel during the recoil movement of the barrel stand.

Another disadvantage of such a running tube mounting is that for the leaf springs a relative complicated manufacturing process is required. It is also important that the spring forces of each Leaf springs along the track surface are really the same are great.

The object of the present invention is to provide a self-centering To create running tube bearings in which the Game is largely eliminated.

According to the invention, the storage consists of a ring, which has two separate, adjacent parts that are so with-

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are connected to each other, that one part with the outer surface of the running pipe and the other part with the return jacket are engaged.

In a preferred embodiment of the invention are the two parts are connected by screws, but separated by a narrow air gap to form a To prevent heat transfer from the barrel part to the return jacket part.

Embodiments of the invention are described in detail with reference to the following figures. It shows:

Fig. 1 is a running tube mounting in a longitudinal section through the Longitudinal axis of the running tube and

Fig. 2 seen the storage in the direction of the running tube.

Fig. 1 shows only part of a barrel 1 of a large-caliber Gun, for example a tank gun, a standing coastal artillery gun, a Field artillery guns or other automatic guns. The return jacket consists essentially of a cylindrical sleeve 2 which encloses a rear part of the barrel 1. During the recoil it will the running pipe moves relative to the return jacket, which is rigid is attached to the mount. The running tube 1 is in the rear

running jacket mounted by means of an annular bearing 3, which is attached to the barrel. During the recoil the bearing is moved to the return jacket and slides in this.

The bearing 3 consists of two ring-shaped parts 4 and 5, which are arranged next to each other, but radially offset, so that one part 4 touches the circumferential surface of the running tube, while the other part 5 with a minimal clearance touches the surface of the return jacket. The outer radius of the first part 4 is significantly smaller than the radius of the associated return jacket, while the inner radius of the other part 5 is significantly larger than the outer radius of the associated running tube surface. The two parts 4 and 5 are held together by a number of comparatively long and small screws or bolts 6, six screws are shown in the figure. The screws are provided with a short external thread 6a, while the rest of the screws have a diameter that is smaller than the threaded hole diameter. The other part 5 has a slightly rounded contact surface 7 to allow the sliding movement along the return jacket surface to facilitate.

A plurality of cylindrical pins 8, three in the drawing, are arranged between the two parts 4 and 5, see above that between the two parts a small radial air

gap 9 is formed. The air gap prevents heat from reaching the return jacket from the running pipe via the bearing parts is transmitted when the barrel barrel during firing is heated. The width of the air gap is approximately 0.5 to 1 mm, preferably 0.6 mm. The cylindrical Pins 8 are arranged in circular bores through recesses in the opposite Surfaces of the two parts are formed.

In order to keep the bearing parts on the running tube in their correct axial position, part 4 is on the running tube by means of a flange 10 on the circumferential surface of the running tube and a spacer sleeve 11, which the circumferential surface of the running pipe surrounds, fastened. In the event that between the return jacket and the running pipe two or more Rings 3 are arranged, it should be noted that the distance between the rings by such spacer sleeves is kept constant.

As a result of the radial displacement m between the two annular parts 4 and 5 and the air gap 9 between These parts prevent heat from the barrel to the return jacket when the barrel is heated when firing is transmitted. This means that the play between the outer part 5 and the return jacket is kept small or can be essentially eliminated.

Another advantage of the annular barrel bearing is there in the fact that it is self-centering, that is, the barrel pipe will, even when heated, be in Sequence of cylindrical pins 8 centered. If the barrel is heated up when fired, the heat will transferred to the inner annular part 4, which extend over the cylindrical pins 8 in the radial direction can.

Thanks to the air gap 9, the outer annular part 5 is heated only to a very small extent and its Dimensions do not change. The two parts 4 and 5 move relative to one another when heated the cylindrical pins 8.

The invention is not limited to the embodiment described above, but can be used within the The scope of protection of the claims can be modified.

Claims (5)

Claims 1. Storage for a running pipe that is in the return jacket a large caliber gun is mounted, the return jacket having a sleeve that the rear Part of the running pipe encloses, marked by a ring (3) which is arranged between the barrel (1) and the sleeve (2) of the return jacket, consisting of two separate parts (4) and (5), which are arranged next to one another and radially offset from one another are, so that one part (4) the outer peripheral surface of the barrel and the other part (5) the sleeve of the Touches the return jacket. 2. Storage according to claim 1, characterized in that the two parts (4, 5) with one ORIGINAL between them lying small air gap (9) are connected. 3. Storage according to claim 2, characterized in that the two parts (4, 5) by a A number of screws (6) are connected to one another and held at a distance from one another by a number of pins (8), so that the air gap (9) is formed between the two adjacent, annular surfaces of the two parts is. 4. Storage according to claim 3, characterized in that the pins (8) are cylindrical and are arranged in round holes through corresponding recesses in the two adjacent Surfaces of the two parts are formed. 5. Storage according to claim 1, characterized in that the ring (3) by a flange (10) and / or a spacer sleeve axially fixed on the running tube (1) is.