DE530196C - Cooling device on firearms - Google Patents

Description

There are firearms that are used to keep the barrel cool Shooting use the barrel is surrounded by a metal jacket, the material of which is a better one Thermal conductivity is inherent in that of the running material (steel). With the more and more increased rates of fire and prolonged firearms firing sequences are the results of such

ίο Cooling equipment no longer sufficient. The heat exchange between the outer surface of the warming jacket and the surrounding air remains behind heat transfer from the barrel back into the cooling jacket. This accumulates in this according to its limited heat absorption capacity and continues the dissipation of heat from the barrel down into the coat. The consequence is that the barrel overheats too early after a for the need for a small number of shots.

Based on the knowledge of this deficiency and its cause, the cooling jacket according to the invention is composed of several materials which differ from one another in terms of their thermal properties, ie have differently large or good thermal conductivity and heat absorption capacity. Copper z. B. and copper alloys (e.g. also with silver) have good thermal conductivity. As a cooling jacket material, copper is very suitable for quickly removing heat from the barrel and transferring it to another material that is in contact with it and which has a high heat absorption capacity (e.g. light metal, aluminum or aluminum alloys), in which it is stored they do not SOG is radiated ¹ IeICh and continuously into the surrounding outside air or fitting body or transmitted. The groups of substances thus forming the building material of the cooling jacket can be detachable as a single body, e.g. B. by screws, screwing, or non-releasable, z. B. be connected to one another by riveting or casting together.

The three-dimensional shape and arrangement of the various materials formed Partial bodies to one another can be designed in different ways. You can be as elongated Body of annular cross-section extending the length of the barrel and be arranged side by side, with good thermal conductivity on a part of the body always followed by such a great heat absorption capacity that with the Is in contact with outside air or another transferring medium. If you as Pipe shells enclose each other, so the individual pipe layers can still be prepared with and recesses (longitudinal or transverse ribs) into one another and with firearms with fixed If necessary, intervene in those of the barrel as well. It will usually be enough. assemble the pipe cooling jacket from two closely enclosing pipe shells, of which those made of a material with good thermal conductivity (e.g. copper) as the inner layer rests directly on the barrel, which is

material of great heat absorption capacity (e.g. aluminum) as the outer pipe layer, expediently of a larger volume, which includes the other. The inner copper jacket, which can be a solid tube or wound from wire, is able to quickly remove the heat from the barrel and to pass it on to the outer aluminum jacket for radiation and storage of the rest. The higher melting point and the greater wear resistance make the copper jacket suitable as a neighbor of the barrel and heat consumer, especially for firearms with a sliding barrel, where the cooling jacket is firmly connected to the weapon housing and the barrel slides back and forth in it Invention ^{1 also} seeks to counteract other disadvantages that exist in only one-piece cooling jackets that cannot be dismantled as full jackets, both in firearms with a fixed barrel and with a sliding barrel. If the cooling jacket itself had become hot in the process, it could only be stripped off the weapon as a self-contained tubular body and, in particular, as a compact mass and required a considerable amount of time to cool down.

This is remedied according to the invention by dividing the cooling jacket lengthways and off two or more segment pieces releasably connected to one another (or also to the barrel) is formed. The cooling jacket constructed in this way can either as a whole or part by part from its support (Barrel or weapon housing) removed and disassembled into tubular segment pieces of smaller mass with a large surface or spread apart Set aside or hang to cool down. So be also its inner, particularly hot layers of the cooling outside air or what is poured over it Cooling water accessible, it quickly becomes cold and can then be used again as a cooling jacket for a new series of shots.

For firearms with sliding barrel but with a cooling jacket attached to the housing, it is advisable to use the cooling jacket, which is composed of two or more segment pieces by the segments spanning resilient connecting means in places To make circumference elastically yielding. The individual segment pieces of the cooling jacket are always brought into intimate contact with the barrel, and a previously difficult to avoid, There is no air gap between barrel and jacket that would impair heat transfer. Without prejudice to any Expansion of barrel and jacket when heated, this intimate contact remains and still the necessary shift »- Maintainability of the barrel in the coat. The division of the mantle and its resilience in the radial direction, which allows for an unhindered expansion in the tangential direction Direction includes is particularly advantageous for those coats that, as described above, are composed of several materials with different thermal properties. This is the formation of Tensions in the structure of the jacket are effectively counteracted, and those from different Sheath part bodies formed from materials do not experience any change in their spatial shape with the changing temperatures.

The drawing illustrates an embodiment of the cooling device according to FIG Invention in Fig. R in longitudinal section, in Fig. 2 in cross section.

The barrel is surrounded by a cooling jacket made of two longitudinal pipe halves b _x -b ₂ , C ₁ -C ₂ , which are held together by resilient bands d made of rubber or spring steel strip around them and brought into intimate metallic contact with the barrel with their inner surfaces. The longitudinal halves of the pipe are each composed of two layers connected to one another by rivets, an inner layer O ₁ or C ₁ made of material with good thermal conductivity, e.g. B. copper, and an outer, thick-walled and in the drawn embodiment with longitudinal ribs to go to achieve a large radiation area occupied layer & ₂ or C ₂ made of material with high heat absorption capacity, ζ. Β. Aluminum. _{A collar O 1 of} the barrel that enters into the annular grooves of the two halves of the cooling jacket secures the cooling jacket against longitudinal displacement and sliding off the barrel. When firing, the heat is quickly withdrawn from the heated barrel by the copper layer O ₁ , C _{1 of} the cooling jacket resting against it and transferred to its outer aluminum part b ₂ , C ₂ , partly stored there and partly radiated into the surrounding air. If the cooling jacket itself has finally become too hot, it can easily be exchanged for a cold one. The shell halves can first be moved apart radially out of the retaining collar U _{1 of} the barrel by means of heat-insulated handles (not shown) and then as a whole or after stripping off the resilient straps d, disassembled into individual parts, removed from the barrel and put aside for cooling and also spread apart .

Claims (4)

Claims: ¹¹ p I. Cooling device on firearms with a metal cooling jacket surrounding the barrel, characterized by a cooling jacket, which consists of several of each other in terms of their thermal properties different materials is composed, of which some (e.g. copper) have good thermal conductivity, the others (e.g. light metal) have a high heat absorption capacity. 2. Cooling device according to claim i, characterized in that the cooling jacket is composed of two surrounding pipe layers, one of which the inner layer made of material with good thermal conductivity (e.g. copper) rests against the barrel and the second one, which is made of a material with a high heat absorption capacity (e.g. aluminum) Pipe layer is surrounded. 3. Cooling device on firearms with a metal cooling jacket surrounding the barrel, in particular according to claim 1 and 2, characterized in that the Cooling jacket, consisting of longitudinal strips, broken down into such or (and) spread apart can be. 4. Cooling device according to claim 3, characterized in that the individual Sections of the cooling jacket held together to form a jacket by resilient straps and can be pressed onto the outer surface of the barrel. 1 sheet of drawings