The present invention relates to a projectile for short firing ranges, where the projectile is designed as a cylinder with a nose having a substantially flat surface arranged with a threaded socket allowing for the arrangement of, for example, a fuze a rear section designed with a substantially flat surface, as well as a projectile body arranged with energetic material enclosed by a casing.
Barrel weapons, such as cannons, make use of projectiles that are fired by means of a propellant, frequently gunpowder, during the formation of gas pressure that propels a projectile out through the barrel. A certain amount of propellant is used up in order to enable for the projectile to be propelled out through the barrel in a safe manner. In most cases, it is desirable to fire the projectiles with a long firing range, which results in the systems being designed in order to allow for long firing ranges. Depending on the circumstances or requirements, short firing ranges may also be desired. Currently, short firing ranges are achieved in part by firing current ammunition with as low propellant as possible, and, in part, by ensuring that the elevation of the firing is as high as possible, which means that the firing range of the projectiles is short, but that they travel with a relatively high trajectory.
Patent document GB 2 105 444 describes a training projectile for battle vehicles which has been adapted to short or, alternatively, long firing ranges, and is designed with a removable tap/rod which can be removed when short firing ranges are desired. For instance, the tap can be threaded to the projectiles. The patent document does not show the projectile including an operational part, and only a training projectile is described.
Patent document U.S. Pat. No. 3,713,386 shows a short-range projectile for weapons of fine caliber which includes a reverse rocket engine which, upon initiation, creates an opposing force which affects the projectile and stops its trajectory at a certain predetermined point. The patent document does not show any operational part including energetic materials, and it furthermore shows a technically complex and costly solution to the problem of reducing the firing range.
It is desirable to solve the problems identified above.
According to an aspect of the present invention a projectile for short firing ranges is designed as a cylinder with a nose having a substantially flat surface arranged with a threaded socket allowing for the arrangement of, for example, a fuze a rear section designed with a substantially flat surface, as well as a projectile body arranged with energetic material enclosed by a casing.
According to additional aspects for a projectile with a short firing range, the following applies;
that a measurement, from the outer radius of the projectile to a point in the center of the projectile on the nose of the projectile, the cone height, is less than 20 mm.
that a measure, from the outer radius of the projectile to a point in the center of the projectile on the nose of the projectile, the cone height, is less than 15% of the diameter of the projectile.
that the projectile is arranged with a belt or a sealing ring.
that the projectile is arranged with a convex nose section.
that the projectile is arranged with a concave rear section.
that the projectile is arranged with a concave nose section.
That the projectile is arranged with a fuze arranged in the threaded socket.
that a fuze is arranged to burst upon being struck.
that a fuze is arranged to burst upon reaching a certain altitude.
that a fuze is arranged to burst at a certain time.
that the projectile is arranged with a braking device.
The invention will be described below by reference to the figures that are included there:
An ejection device, also termed a cannon, a howitzer or a piece, in the sense of an artillery piece, has to goal of making use a propellant for the purpose of firing, or ejecting, a projectile. Preferably, a propellant, such as gunpowder, is initiated in one part of the cannon, oftentimes a chamber specifically adapted to the purpose. Initiation takes place by way of igniting the fuze, for instance by means of an ignition cartridge or an ignited in an ammunitions device, which is initiated by means of striking. Other methods for igniting the propellant may include ignition of the propellant by means of laser energy or electric energy. The propellant burns at a high rate and results in large amounts of gas being produced, which creates a gas pressure in the chamber which propels the projectile out of the barrel of the firing ejection device. The propellant has been adapted in order to generate a constant pressure on the projectile during the entire barrel procedure, to the greatest extent possible, as the projectile movies in the barrel, which results in the projectile leaving the mouth of the barrel with high speed.
Projectiles, such as various types of grenades, generally include some form of operational part and some form of fuze which initiates the operational part. Fuzes can be of various types, and it is common that projectiles intended to burst upon coming into contact with objects to be of the type that requires being struck. Other types of barrels include time barrels, in which projectiles are arranged for purposes of bursting at a certain predetermined time, and zone barrels, in which projectiles are arranged for purposes of bursting when an object comes within a certain distance from the projectile. The use of zone barrels is preferred when confronting flying vessels, while timed barrels can be used when confronting a large number of various objects. It is advantageous to combine various types of barrel functions in one and the same barrel, for instance in order for the projectile to burst after a certain time if it fails to detect any object, and so on.
It is advantageous for the operational part to comprise some type of explosive substance, as well as some type of shattering casing which encloses the explosive substance. Various types of propellants, such as fins, can furthermore be arranged in either fuze or on the body of the projectile.
Projectiles intended for artillery purposes generally include an operational part, a grenade and a fuze, which are arranged on the grenade prior to the projectile being arranged, rammed, in the fuze cannon. The reasons that the fuze is not arranged along with the grenade prior to being employed. The fuze is generally arranged with threads and is screwed on to the grenade/body of the projectile. The fuze can also be programmed, such as by means of modifying the fuze mechanically, for instance by turning part of the fuze to a certain desired position. Alternatively, the fuze can be programmed electronically, such as by bringing it in contact with the fuze or by means of inductive/capacitive programming.
A certain amount of propellant is used up in order to enable for the projectile to be propelled out through the barrel in a safe manner. In most cases, it is desirable to fire the projectiles with a long firing range, which results in the systems being designed in order to allow for long firing ranges. Depending on the circumstances or requirements, short firing ranges may also be desired. Currently, short firing ranges are achieved in part by firing current ammunition with as low propellant as possible, and, in part, by ensuring that the elevation of the firing is as high as possible, which means that the firing range of the projectiles is short, but that they travel with a relatively high trajectory.
By adapting the projectiles so that larger air resistance is achieved, it becomes possible to achieve short firing ranges. If the projectile is arranged using a flat, or substantially flat, nose section, larger air resistance can thus be generated which results in a short firing range. When the projectile is arranged with a flat nose section, the rear section is also flat, or primarily flat, or substantially flat. A projectile with a flat nose section and a flat rear section takes on a cylindrical shape, which also facilitates the production of projectiles, meaning that a short-range grenade produced in the form of a cylinder can be considered to be cost-effective in comparison with conventional projectiles. For instance, the body of the projectile is manufactured using conventional pipes or pipe elements available for sale, and do not have to be explicitly manufactured for the purpose.
In order to further shorten the firing range, the projectile may be arranged with a brake device, such as brake panels, a brake screen, such as a falling screen, or an engine, such as a rocket engine.
Examples of short-range grenades include projectiles with calibers 80-155 mm arranged with fuzes arranged with functions based on striking, time or zone fuzes, as well as a projectile body arranged with functions that make it capable of emitting shrapnel or exploding. The length of the projectile, excluding the fuze, is preferably between 100-600 mm.
The invention is not limited to the types of design specifically shown, but can be varied in different ways within the framework of the claims.
For instance, it is clear that the number, size, material and shape of the elements and details included in the short-range grenade are to be adapted according to the projectile(s) and projectile compositions, along with other construction-related properties, which are applicable to each individual case.
For instance, the projectile can be arranged so that it is capable of exploding, emitting shrapnel, catching fire, exerting a thermobaric effect, fighting fires, to be used as a training projectile, in light kits, in smoke kits, to exert electromagnetic effect, bring about electromagnetic disturbances or other loads and functions.
Number | Date | Country | Kind |
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2000094-9 | May 2020 | SE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/SE2021/050416 | 5/4/2021 | WO |