SE443871B - Recoil free firing device for projectiles - Google Patents

Abstract

The invention concerns a firing device for a kind of weapon where absence of recoil is achieved via an entity being shot backwards from a barrel (1), at the same time as a projectile is fired in the forward direction. The device involves a projectile (3), the acceleration sections of which have been elongated in comparison with conventional devices via the overlapping of the sections across each other and a counterweight container (5). The rear end of the projectile is designed with an open pipe (4) at the back, which is equipped with a bottom, with an outer diameter which allows it to run in the barrel (1). The counterweight holder (5) is designed as a piston which can run in the piston pipe (4). A propelling charge (6) is placed between the pipes bottom and the container whose propellant gas on firing accelerates the components in opposite directions.<IMAGE>

Description

3 ~ With n * 3 types of weapons, complicated devices for solving problems have taken. As an example, the firing range of the This weapon has been extended by the fact that its projectiles have been shaved. regat. On other weapons, the sound pressure has been reduced by using of a substantially gas-tight design, in which pistons or propellants mirrors push out the projectile and the counter mass, after which they slow down at the fire tube openings and clog them so that the gas does not escape out. The methods lead to complicated and expensive constructions in the former the case of the projectiles in the latter case of the firing device.

DESCRIPTION OF THE INVENTION Let us at a first glance at the theories of the firing process of a countermeasure firing device assumes that the projectile has a certain weight and the barrel a definite caliber. The cage speed, as mainly determines the firing range of the weapon, is then essentially a function of the gas pressure in the barrel during the course and of the length of the projectile's acceleration distance ka. The gas pressure depends on the composition and size of the propellant charge. Accele- ration route is the path in the arms race that is passed by the projectile surface, the surface exposed to the overpressure of the propellant. Simply put, can thus a desired increase in muzzle velocity at the given assumptions obtained only by either extending the acceleration range of the projectile ka or increase the size of the propellant charge. As previously reported, it provides method an unacceptably higher sound pressure.

The acceleration distance of the projectile in weapons made according to known technology has could not be extended without the weapon becoming too awkward. With è; Under the following conditions, the total length of the weapon needs to be increased twice as much much like the extension of the acceleration trigger. In the initial sequence of the firing position is with these weapons the projectile and the countermass container, with those above the entire diameter almost flat uniform drive surfaces, placed against each other in the fire tube open at both ends with the propellant charge inserted between the drive surfaces. : f t ' .s lay .3 The projectile and the countermass container are accelerated in opposite directions under the influence of the propellant along acceleration distances, which begin dir the drive surfaces are in the initial position and end where they leave the barrel the ings. The total length of the weapon is therefore determined by the sum of the projectiles and the acceleration distances of the countermass container. It is further assumed that motf mass weighs as much as the projectile, the two acceleration the distances must be the same length in order for the recoil force to be compensated.

The momentum is then equal for both the projectile and the counter mass, when these leave the barrel. If you want to increase the mouth speed by extending the acceleration distance of the projectile, the an equal extension of the acceleration distance of the countermass is conducted.

The total length of the weapon would therefore need to be increased twice as much as the elongation of the projectile's acceleration distance, which is considerable would reduce the maneuverability of the weapon.

The object of the invention is to provide a recoilless-free firing device: with a considerably increased capacity without the total length of the weapon needed to be increased or higher sound pressure is accepted. The task is solved according to the invention by designing the device as set out in the following patent claims.

The invention aims to extend the acceleration distances for both the projectile and the countermass, by allowing these distances to overlap each other. At a complete overlap, the acceleration distances can be twice as long as in prior art. The overlap _ can be performed in different ways. According to the preferred embodiment, the design the rear end of the projectile to a rear open tube provided with a bottom an outer diameter corresponding to the weapon caliber. The inside of the tube is in essentially a cylinder surface in which the countermass formed into a piston - the container can run. The length of the tube is not determined by the invention but should not be exceeded for practical reasons. Initially lr the tube is almost entirely located in the barrel with the countermass container inserted into the tube towards its bottom but separated from it by the one in between placed the propellant charge. During the firing process, the project tilen and the countermass container in opposite directions of the gas pressure on projectile and container propulsion surfaces. Due to the longer scce ~ the distance the projectile obtains a much higher muzzle velocity r «- 'r and the propellant gas is allowed to expand to a considerably lower residual pressure ln in weapons made according to known technology. The lower sound pressure gives ridiculousness to further increase capacity. Of course, The citation improvement is also used to increase projectile weight.

A weapon according to the invention also provides other advantages. Projectile dimensions are not bound to the caliber. Because the combat part does not needs to be inserted into the barrel, it can be designed for best effect. Fenor and the like do not have to be made fold-out to fit in the barrel.

The benefits are not paid for with any loss of firing precision as the the jectile is controlled by the tube during the entire firing process. Even countermass- the container can be arranged to be controlled during the process.

The invention is not limited to the embodiment described here.

The tubular education can instead be wholly or partly the opposite mass. The projectile is then designed to act as a piston in the countermass tube. The tube may be fixedly connected to the projectile or mass but can also be a separate unit as after acceleration separated.

In some situations, however, cold gas guns have advantages complicated execution. If the invention is used in these weapons, In addition to the previously described advantages, it is achieved that the sealing problems due to the fact that the propellant gas expands to a lower final pressure.

The extension of the acceleration distance does not necessarily have to be nas with an inner part running inside an outer part. The overlap can eg performed.sisom parallel running rods. Nor do they need to the guiding and sealing parts of the overlapping elements be fixed combined with these elements as in the embodiment described above.

DESCRIPTION OF FIGURES The invention will be described in more detail below with reference to to the accompanying drawings, which show the preferred embodiment but by a firing device according to the invention and a so-called gastlt variant of this. The first 3 figures show different stages of shooting v å.

E » ?? WwwWww @ nHnw, = n .._ «@ : f i ”~ 5 the course of the preferred skew.

Pig la shows the projectile and countermass units at the firing range start, ie the positions of the units at the beginning of the acceleration distances.

Pig Ib shows the positions of the units when they have traveled about halfway the acceleration distances.

Pig 1c shows the positions of the units where they are leaving the barrel, ie the positions that the units have at the end of the acceleration distances.

Fig. 2 shows a so-called gas-tight sliding device according to the invention.

PÖREDRACEN UTFÖRINCSFORM Figures 1a, 1b and 1c show a recoilless weapon comprising one barrel In a projectile unit 2, consisting of a projectile 3 and one in one the end closed tube, here referred to as tubular piston 4, a countermass unit 5 and a propellant charge 6.

The tubular piston 6 can be designed in different ways. It can e.g. be an extension of the projectile or, as in this embodiment, a after acceleration from the projectile separable cylinder with the length slightly shorter than the barrel. the initial position of the process slightly further forward than the barrel and in a recess fitted in this recess 7. For reasons of weight, the piston the wall thickness of the pipe towards the opening.

Since the tubular piston 4 constitutes the propulsion piston for the projectile needs this does not fit in the barrel. The projectile can therefore be designed without view of the caliber.

In the initial position of the sliding process, the groove unit 5 is located in the tube made the piston b near its bottom ll only separated by the propellant charge 6. Hot- the mssse unit is in turn also designed as a piston that can run in it tubular piston. The counter unit S comprises a container 8 containing a countermass 9 consisting of some liquid or solid particles. Ruth L; »R '1. ~ _ ~ The closed end of the piston extends at the firing - f in; www »a; L » : ya-www f, - »« ~ .- «3 ~ V _» b the bottom of the holder is a collar 10 of suitably extensible material, e.g. Teflon plastic, which is arranged by its own voltage or by the propellant gas pressure to be pressed against the currently surrounding cylinder wall to prevent the propellant gas to flow past the container. The collar seals at the beginning of the the course towards the inner cylinder surface of the piston. Later in the process, the the piston, the collar instead sealing against the barrel.

In addition, the weapon, like other recoilless weapons, includes a firing mechanism, handles, sights, etc.

Feature.

The different stages of the firing process are shown in Figures 1a, fb and 1c. At the initial position, Fig. 1a, the drive charge 6 is initiated, eg electrically with a wire led through a hole in the pipe piston just from it front barrel opening. The generated propellant exposes the piston bottom 11 and the drive surface 12 of the countermass container to forces which accelerates the projectile unit 2 and the countermass unit 5 in opposite directions.

The projectile unit is controlled by the tubular piston in its travel in the barrel towards which the piston also seals for the propellant gas in a conventional manner. Hotmass- the unit first runs inside the tubular piston against which the collar 10 seals for the propellant.

When the units have traveled approximately half the acceleration distances, leave the countermass unit the tubular piston (Fig. 1b) and continues to run in the barrel. Although the countermass unit travels in surfaces with a circular transverse sections of different diameters, first the inner surface of the slightly conical piston and Then further the inner surface of the barrel further, the collar 10 seals the propellant during the entire acceleration distance of the countermass unit. Collar 10 also together with the front expander of the lift holder in the direction of travel edge so that the countermass unit is accurately controlled throughout the distance, something that is important so that the weapon does not change direction during the race.

In Fig. 1: is shown when the units simultaneously leave the barrel. The acceleration of then stops because the gas pressure ceases to exert any force on the units.

The tubular piston can accompany the projectile towards the target or be released from this by, for example, an explosive charge or propellant in an intermediate and the piston existing space, which was filled during the launch » v.

IN! _1_ øzUbu82-4 The hot mass container 8 is fragmented as soon as it has left the barrel. As well as motmaasan it is broken down into small elements with high air resistance to minimize risk areas behind the shooter. ' Figure 1e shows the long acceleration distances achieved with a device according to the invention. Both the projectile and counter-mass units accelerate: i the preferred embodiment on distances each corresponding to almost the whole the length of the barrel. Armed contained gas volumes can during acceleration the barrel is allowed to expand to a volume almost twice as large as that of the barrel.

Compare these values with the known weapons of no more than half the length of the barrel or the volume of the barrel, it will be appreciated that the device according to the invention allows that considerably higher muzzle velocity is obtained together with a much lower sound pressure.

Gas-tight variant of the preferred embodiment.

For certain purposes, "gas-tight" firing has advantages, for example if desired avoid mouth flame or reduce sound pressure. This is used in prior art designs drive mirrors or push-out pistons the projectile and the counter mass, after which they are braked at the opening of the barrel. so that the gas is not emitted. The drive mirrors or pistons are similar shaped and both run directly 1 the barrel. nor for these weapons the sum of the acceleration distances may be longer than the length of the barrel.

Fig. 2 shows a recoil-free sliding device according to the invention in a gas tight design. The changes compared to the embodiment in Figures Ia-c is present at the barrel openings, the open end of the tubular piston and the countermass container.

The inner cylinder surface of the barrel 1 is terminated towards each opening by one conical reduction Ia, Ib, with the side hlldiamater that the cylindrical the parts of the tubular piston 4 and the countermass container 8 neatly and can even pass the respective openings.

The tubular piston is provided at the opening with an annular outlet jump ba, which can run in the barrel. The hot mass container is at the bottom provided with a similar projection 8a, which can run in the tubular n W-w @ fl rWr @ Wr fl * W * ~ ß 8 the piston. A guide ring 13 which suffered some friction can be displaced in the outer surface of the pipe surrounds this near the outlet. A running ring Ib, which can run in the fire tube is penetrated into the opening of the tubular piston. The hole in the running the ring is adapted so that the ring can easily slide on the countermass container.

When, after firing, the projectile and notch units are accelerated opposite directions and felled slightly less than half the acceleration distances, penetrates the container 8 into the running ring 14. For the next following time the running ring Ib first catches the guide ring 13 and pre-displaces it on the the holder up to the dtsprång 8a of the container, which prevents further displacement and therefore the rings lock on the container at the bottom. Under units- the continued opposite movements of the tubes, the running ring 1b is then detached from the shaped piston, after which the countermass unit runs in the barrel controlled by the running When the units have reached near the end of the acceleration distances, the tubular piston is delayed when the projection ba penetrates into the conical one the reduction Ia and the countermass container when the running ring 14, which is locked at the projection 8a, penetrates into the conical reduction 1b. During the placement the tical deformation of the conical reductions is completely decelerated the tubular piston and container, after which the projectile is released from the piston and continues in its path while the countermass leaves the container.

Claims (3)

,. f ... v »_. ä? .-, R. n .. wm-wwwsln- Patent claims Device for recoilless firing with a forward and rearwardly open fire tube (1) in which gglg a projectile unit (2) comprising a projectile (3) and behind it a tube closed in the firing direction, piston tube (G), which is displaceable in the barrel, has toe properties against this and is designed to be accelerated forward in the barrel by a propellant gas and a countermass unit (5) comprising a countermass (9) is designed to be accelerated, from a position where the piston tube (4) completely or partially surrounds the countermass unit, backwards in the barrel of the propellant, characterized in that the projectile unit has obtained an elongated acceleration trajectory by being so arranged. substantially by the pressure of the propellant gas against the bottom (11) of the piston tube and that the countermass unit has obtained an extended acceleration distance by provided that its end facing the propellant gas seals against and is controlled by first piston tube and then by the barrel during the entire displacement of the end to the rear orifice during which the countermass unit is accelerated by the pressure of the propellant towards the end. 2. Device according to claim 1, characterized in that the countermass unit is at least at the end facing the propellant gas equipped with an expanding annular device for guiding the unit in and sealing against the piston tube and the fire tube. Device according to claim 1, characterized in that the device is designed for gas-tight ejection in that the front mouth of the barrel is equipped with a reduction (1a) to completely brake the piston tube by means of a projection (ba) on the open end of the piston tube and to seal against this, in that the countermass unit is also equipped with a projection (8a) at the end directed towards the propellant gas and in that a ring (14) displaceable in the barrel at the beginning of the ejection is releasably attached to the open end of the piston tube and is arranged to the passage of the unit by the end, is captured by the unit and, together with a reduction (1b) arranged at the rear mouth of the barrel, completely brakes the countermass unit by means of its projection and to tilt between the unit and the barrel.