The subject invention treats a general method of producing an improved type of countermass weapon of the selectable reloadable or disposal type(s). In accordance with said method of weapon so produced, the subject invention also includes the special properties of such weapons. These weapons, according to the invention, have the chief advantage of affording low pressure increases around the gunner. Such a weapon, being of the type distinguished by the invention, can thus be fired from within confined spaces, as during urban combat, without risk to the gunner. The need for weapons of said type has long been known and although there exist today a number of different, in principle, recoilless or reloadable weapons of backblast and/or countermass type, that are both easily handled by the gunner and highly effective in-target, it is relatively few of these that combine these properties with the property being able to be fired from confined spaces while maintaining an acceptable range and posing no risks to the gunner. The subject invention, offering said advantages, makes it possible to manufacture shells for said reloadable backblast weapons that convert such weapons to countermass weapons with the distinguishing properties of the subject invention, such being an acceptably low pressure increases around the gunner, which is not at the cost of limiting the range of the weapon.
Over time, much work has been devoted to the selection and consistency of the countermass used in the different types of weapons, because one can state from an early stage that the selection of the countermass affects the pressure increase around the countermass weapon fired as well as the backflash behind the weapon. An additional advantage of countermass is the radically reduced weapon heat signature due to the extinguishing of the backflash behind the weapon to a greater or lesser extent. A special problem in relation to attempts at achieving lower pressure increases around the gunner have concerned the unacceptability of lower pressure increases being achieved at the cost of gross reductions in the range of the weapon, thus reducing general usability in the open.
The subject invention now offers a general method of reducing the pressure increase around the weapon generated upon firing, thus said invention can form the basis of a new family of countermass weapons, encompassing reloadable as well as disposal type(s). The Carl-Gustaf recoilless rifle is a renowned example of such a reloadable weapon. The subject invention also includes a general method, in accordance with the method indicated in the subject invention, to make use of countermass in such recoilless weapons in which the projectile fired normally reaches the desired muzzle velocity according to the so called backblast principle. The projectile, for weapons of this type, achieves the desired muzzle velocity from a propellant charge as the recoil of the weapon is simultaneously countered by the same propellant charge in so far as said charge is fired rearwards of the direction of projectile fire in the rear-opened barrel. The subject invention now offers a general method of reducing the pressure increase around the weapon generated upon firing, thus said invention can form the basis of a new family of countermass weapons, encompassing reloadable as well as disposal type(s). The Carl-Gustaf recoilless rifle is a renowned example of such a reloadable weapon. The subject invention also includes a general method, in accordance with the method indicated in the subject invention, to make use of countermass in such recoilless weapons in which the projectile fired normally reaches the desired muzzle velocity according to the so called backblast principle. The projectile, for weapons of this type, achieves the desired muzzle velocity from a propellant charge as the recoil of the weapon is simultaneously countered by the same propellant charge in so far as said charge is fired rearwards of the direction of projectile fire in the rear-opened barrel.-{}- The barrels of backblast weapons en in a widening conical gas outlet, which, initially, partially limit the rearwards free-release area of the barrel. It is thus suggested, in reference to the subject invention, that two different assembled propellant charges be used for the Carl-Gustaf recoilless rifle. The barrels of backblast weapons en in a widening conical gas outlet, which, initially, partially limit the rearwards free-release area of the barrel. It is thus suggested, in reference to the subject invention, that two different assembled propellant charges be used for the Carl-Gustaf recoilless rifle.
The subject invention is based on the utilisation of a generally high-pressure low-pressure system combined with countermass counteracting the low-pressure system. The high-pressure system shall, in practice, be formed by the combustion chamber for the weapon propellant charges while the main part of the low-pressure system shall, in initial stages, be formed by the storage and acceleration chamber for the countermass. The possibility, earlier intimated in the subject invention, of utilising the general high-pressure low-pressure countermass system in one and the same weapon that, in similarity to the Carl-Gustaf recoilless rifle, includes a constrictive nozzle and in normal cases functions according to the backblast principle, is achieved by equipping the cartridge casing of the weapon's attendant ammunition with a device that affords the cartridge casing an inner low-pressure chamber, which has a diameter equalling the free area at the outlet nozzle of the weapon. The concentric space, fashioned outside said low-pressure chamber that is limited by the constriction of the outlet nozzle rearwards of the weapon's direction of fire, can in a preferable form of execution be used as a high-pressure chamber or, in some other variant, an equivalent filling.
The subject invention can be used as a booster charge or launch charge for weapons with longer ranges, where a flight motor of the rocket motor sort ignites later in the shell's own trajectory. A booster charge can be developed in accordance with the method described in the subject invention for weapons without requirements for longer ranges that affords the shell sufficient muzzle velocity for most purposes.
The basic concept for the subject invention, as regards reusable weapons, concerns a new kind of cartridge casing appropriately adapted that can be of two different types, to be described later on in the text.
The same basic concepts can be used for disposable weapon by the rear parts of the weapon barrel, opposed to the direction of fire of the weapon, are specially formed by a method corresponding to that of the cartridge casing in the case of reusable or reloadable weapons.
The basic concept for the method and device according to the subject invention, that has been intimated earlier concerns using a propellant charge, for the acceleration and launch of the given projectile, combusted in a limited area high-pressure chamber, from which the propellant gases are fed, through specially adapted overflow channels, to a low-pressure chamber or expansions chamber fashioned behind the rear end of said given projectile and between it and a countermass or dampening mass that shall initially adsorb the main part of the forces from the low-pressure chamber or expansion chamber. Thus, the projectile accelerates in a forward direction, given the successive feed of propellant gases to the low-pressure or expansion chamber, within and out of the barrel muzzle at the same time as the countermass accelerates in a rearward direction out of the rear outlet of the barrel. The internal ballistic process within the barrel can, thus, be controlled by the amount of propellant and rate of combustion for said propellant in the high-pressure chamber and by balancing the form and lead-through area of the overflow channels between the high-pressure and low-pressure chambers with the amount and type of countermass for the desired muzzle velocity of the given projectile and the outflow velocity of the countermass and the method by which said countermass is to be installed.
The division into high-pressure and low-pressure chambers also afford certain other possibilities beyond the main notion of limiting pressure increases around the weapon. By positioning the gas overflow openings obliquely towards the countermass, which is to say backwards in relation to the direction of flight of the given projectile, it is possible to partially eliminate the recoil of the weapon.
The present invention is defined in the subsequent patent claims and is now described in more detail with reference to the illustrations shown in the appended Figures.
The main parts essential for the subject invention for the disposable weapon shown in
Thus, the weapon as depicted in
The reloadable weapon depicted in
Generally, as regards the small scale of
Further, it is shown in
Number | Date | Country | Kind |
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0200281 | Jan 2002 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE03/00044 | 1/15/2003 | WO | 00 | 12/9/2004 |
Publishing Document | Publishing Date | Country | Kind |
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WO03/064956 | 8/7/2003 | WO | A |
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Number | Date | Country | |
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20050115392 A1 | Jun 2005 | US |