SE441866B - ELECTRIC STORAGE IN THE RECYCLING COAT WITH A RUGE CALIBRATED ELECTRIC WEAPON - Google Patents

Description

8402040-3 2 In the storage between the barrel and the recoil jacket, there must also be a certain play or play to accommodate the dimensional changes that occur when the barrel is heated in connection with the firing. However, such a gap is not desirable for other reasons, namely because it gives rise to a scattering in the hit image during firing. This spread, which is thus caused by the piece itself during the firing, has previously been accepted mainly due to the fact that it was the contributions from the fire control equipment that dominated the scattering point of impact. The effort has therefore previously mainly focused on reducing this contribution.

However, due to an increasingly accurate measurement of measurements and more powerful calculators in the fire control equipment, this situation is now changing. While the spreading contribution from the fire control equipment used to be generally 3-5 mrad, the fire control spread has today been reduced to 1-2 mrad, which is of approximately the same order of magnitude as the piece spreading. This has now led to the effort being focused on also reducing the spread of the play.

The scattering of the piece is mainly caused by the oscillations in the fire tubes and student systems that occur during the firing. These oscillations have several causes, such as the force course in the recoil beams, recoil forces on the upper abdomen, forces caused by wedge closure, wedge opening and lowering of shots. Studies of these oscillation processes have shown that the above-mentioned gap between fire tube and recoil jacket makes a not insignificant contribution to the scattering of the piece.

When measures have recently been taken to limit the spread of the piece, this has mainly taken place through the introduction of special devices for damping the oscillating movements. However, such devices make the piece constructions heavier and more expensive, nor do they provide the desired reduction in the piece spread caused by the gap between the fire tube and the recoil jacket.

Through the Swedish patent application 81,03297-1, it is previously known to design the bearing between the fire tube and the recoil jacket in such a way that the gap is eliminated as far as possible. The barrel bearing comprises a cylindrical sleeve which comprises a number of finger springs which are distributed around the periphery of the barrel and with a certain force are clamped against the mantle surface of the barrel and abut against it substantially in a cross-sectional plane of the barrel. 3 8402040-3 By abutting the finger springs against the mantle surface of the barrel, the gap between the barrels is "bridged" to the dimensional changes that occur when the barrel is heated.

However, due to the weight of the recoil system and the g-forces that affect it, the clamping force of the finger springs needs to be high. This gives an undesirable wear between the barrel storage and the barrel. To reduce this wear, the fire tube must therefore be provided with an enlarged cylindrical part so that the finger springs engage with the mantle surface of the fire tube only during a part of the recoil movement of the fire tube backwards.

Another disadvantage of this type of barrel storage is the relatively complicated manufacturing methodology required for the finger springs.

In order for the barrel to be centered, it is required that the degree of clamping really blirks around the mantle surface of the barrel.

The object of the present invention is therefore to provide a barrel storage where the gap is eliminated as far as possible and which is self-centered. The invention is characterized in that the two parts are arranged next to each other in the longitudinal direction of the barrel and held together so that a narrow radial interface between the two parts.

In an advantageous embodiment of the invention, the two parts are screwed together but separated so that said narrow air gap is formed. The air gap prevents heat from being transferred from the part abutting the barrel to the part abutting the recoil fl tel fl- In the following, the invention will be described in more detail in connection with the accompanying drawing which shows an advantageous embodiment of the barrel storage and Figure 1 the core line of the barrel and Figure 2 the bearing seen in the direction of the barrel.

Figure 1 shows a part of the barrel of a large-caliber firearm, for example a tank cannon, fixed coastal piece, field artillery piece or automatic cannon. The rear part of the barrel 1 is mounted in a substantially sleeve-shaped portion 2 of the recoil shell of the weapon. When the barrel performs its recoil movement during firing, the barrel will be displaced relative to the recoil jacket which is fixedly mounted on the piece. s4o2n4o-3 4 The barrel 1 is stored in the recoil jacket via an annular barrel bearing 3 which is attached to the barrel. During the recoil movement, the barrel bearing will therefore be displaced relative to the recoil jacket and perform a sliding movement along it.

The barrel bearing 3 comprises two annular parts 4 and 5 which are arranged next to each other but radially offset so that one part 4 abuts against the mantle surface of the barrel while the other part 5 abuts with a minimal play against the sleeve-shaped portion of the recoil jacket. The outer radius of the first-mentioned part 4 is thus clearly below the radius of the adjacent recoil jacket, while the inner radius of the second part 5 clearly exceeds the outer radius of the adjacent barrel surface. The two parts 4 and 5 are further connected with a number of relatively long and narrow screws 6, in the figure six. The screws are provided with a short thread 6a and otherwise have a diameter below the diameter of the screw holes.

The second part 5 has a slightly rounded abutment surface 7 to facilitate sliding along the recoil jacket.

In the interface between the two parts 4 and 5, a number of cylindrical pins 8 in the figure are placed so that a narrow radial air gap 9 is formed between the two parts. The air gap prevents heat from being transferred from the barrel via the barrel storage to the recoil jacket as the barrel is heated during firing. The air gap is of the order of 0.5-1 mm, for example 0.6 mm. The cylindrical pins 8 are placed in circular holes formed by recesses in the interface between the two parts.

To fix the barrel bearing in the axial direction of the barrel, the annular part 4 abuts against a shoulder 10 on the casing surface of the barrel and a sleeve-shaped spacer 11 which surrounds the casing surface of the barrel. between them by means of such spacers.

Due to the radial displacement between the two annular parts 4 and 5 and the air gap 9 between the parts, heat is thus prevented from being transferred from the fire tube to the recoil jacket when the fire tube is heated during firing. In this way, the clearance between the outer part 5 and the recoil jacket can be kept minimal so that the play is substantially eliminated. 8402040-3 A further advantage of the annular barrel bearing is that it is self-centering, ie the barrel remains centered even when heated by the cylindrical pins 8. When the barrel is heated during firing, heat is dissipated to the inner annular part 4 which can expand radially via the cylindrical pins 8. Thanks to the air gap 9, the outer annular part 5 heats up minimally and retains its shape. The parts 4 and 5 thus slide towards each other via the cylindrical pins 8 in the event of a heat stroke.

The invention is not limited to the embodiment shown above by way of example but can be modified within the scope of the appended claims.

Claims (4)

8402040-3 PATENT REQUIREMENTS A device for storing the barrel in the recoil shell of a coarse-caliber firearm of the type wherein the recoil shell comprises a substantially sleeve-shaped portion surrounding a rear portion of the barrel, comprising at least one ring (2) located between the barrel (1) and the sleeve-shaped portion (2) of the recoil shell. 3) which consists of two separate parts (4, 5) which are radially displaced relative to each other so that one part (4) abuts against the mantle surface of the barrel and the other (5) against the sleeve-shaped portion (2) of the recoil mantle, characterized in that the two parts (4, 5) are arranged next to each other in the longitudinal direction of the barrel (1) and are held together so that a narrow air gap (9) is formed in the radial interface between the two parts (4, 5). Device according to claim 1, characterized in that the two parts (4, 5) are held together by a number of screws (6) and separated by a number of pins (8). Device according to claim 2, characterized in that the pins (8) are cylindrical and placed in circular holes formed by recesses in the interface between the two parts. Device according to claim 1, characterized in that the barrel bearing (3) is fixed in the axial direction of the barrel (1) by a shoulder (10) and / or spacer means (11).