WO2010128194A1 - System for absorbing dynamic loads - Google Patents

Abstract

The invention relates to a system for absorbing the dynamic loads transmitted by a weapon, the load-absorption system being adapted so that it can be incorporated onto a moving platform, and wherein the recoiling mass of the weapon comprises a braking system. The invention furthermore relates to a system for incorporating a weapon onto a moving platform, the incorporation system comprising a load-absorption system according to the invention. The absorption system and the incorporation system of the invention allow the incorporation of elements for transmitting high loads on moving platforms. Moreover, said systems facilitate the positioning of these elements by means of not only static but also dynamic high-precision mechanical actuation means.

Description

 DYNAMIC LOAD ABSORPTION SYSTEM

DESCRIPTION

Technical Field of the Invention

The present invention is within the field of charge absorption systems for firearms.

The present invention relates to a dynamic load absorption system transmitted by a weapon when fired, adapted to absorb strong dynamic loads even when integrated into a mobile platform. The system facilitates the integration of transmitting elements of large loads on mobile platforms. In addition to simplifying integration, it facilitates the positioning of the transmitting elements by means of high precision mechanical drives, both static and dynamic.

Background of the Invention

The integration of weapons into mobile platforms is one of the aspects in which defense engineering has evolved the most. As a result of modern theaters of war and the needs expressed by the operatives, mobility is an essential requirement in today's weapons systems.

The constant lowering of available technologies (GPS, inertial sensors, gyroscopes, positioning systems, servo motors, servo-hydraulics, rugged PCs), has only facilitated a trend that already prevailed in the defense industry.

On each ammunition shot, the artillery pieces experience a recoil and return movement to the firing position in relation to the cradle in which they are mounted. The mass of the elements of an artillery cannon that recede after firing and, by extension, the set of such elements is known as reclining mass. Mass The reculant is globally constituted by the barrel extended by the cylinder head sleeve. This reclining mass is mounted sliding relative to the cradle and is braked by a recuperator on its return to the initial position after the recoil after the shot. The recuperator may comprise, for example, a hydraulic brake or a hydropneumatic brake.

Different techniques are known to integrate a weapon into a mobile platform or vehicle. One technique involves equipping the wheel weapon and attaching it to the vehicle to be towed by it. This technique has the disadvantages that the mobility of the vehicle is worsened and the reaction capacity is reduced, since it is necessary to maneuver to connect the coupling to the vehicle.

Another technique involves mounting the weapon directly on the vehicle, thereby improving mobility and reaction capacity. However, the vehicle is subjected to enormous recoil forces during projectile launch. For example, in the case of a 120 mm caliber mortar shot, the load experienced due to recoil equals 120 tonnes and for a 81 mm caliber mortar, the recoil force equals 40 tonnes. For this reason, large and heavy vehicles have to be used, with the limitation of mobility in the theater of operations that this entails.

In US 2006/0266208 Al a transport system for a gun-type weapon or mortar is described, comprising a retractable structure for placing the weapon on the ground before firing, thus preventing the transmission of the load of recoil to the vehicle. The disadvantage of this system is that before making a shot, said structure must be extended to a position where it is located on the ground, that is, the weapon is not operational while it is mounted on the vehicle.

SUMMARY OF THE INVENTION

It is an object of the invention to solve the aforementioned problems by means of a dynamic load absorption system according to claim 1 and a weapon integration system on a mobile platform according to claim 3. The Dependent claim 2 defines a preferred embodiment of the dynamic load absorption system of the invention.

The purpose of the load absorption system of the invention is to allow the integration of large load transmitting elements, such as a mortar, into mobile platforms, for example an all-terrain vehicle or a track vehicle. The system is designed to absorb the dynamic loads transmitted by a weapon, thus minimizing the loads transmitted to the vehicle, with special emphasis on the lightness of the system, which will allow it to be used for the integration of weapons in mobile platforms of all kinds, from very light even very heavy.

The dynamic load absorption system of the invention is characterized in that it is adapted for integration on a mobile platform and because the reclining mass comprises a braking system.

Unlike the system described in US 2006/0266208 Al, the system of the invention does not need to be positioned on the ground, but the weapon remains at all times on the vehicle thanks to its recoil system that allows the loads transmitted by the weapon to be absorbed .

The use of the braking system as its own recliner mass allows absolute simplicity in the design. This simplicity translates into improved reliability and minimum maintenance costs, compared to other recoil systems that pursue similar objectives.

The load absorption system itself allows the weapon to be re-batteryed, so that the load absorption system is constituted as a single element for absorption and return to battery; with its subsequent braking back to battery also introduced into the braking system.

In a preferred embodiment, the load absorption system comprises guiding means for guiding the recliner mass in its recoil movement and damping means.

The guidance and positioning of the system goes, with the always present objective of mechanical simplicity, integrated into the load absorption system itself. The guided will It has conceived with the philosophy already described of zero maintenance and centesimal positioning, even in dynamic conditions.

The damping system and the guidance system can experience large temperature variations. Because of this, they have been designed to be able to absorb without any effort the possible large, resulting dilations. The thermal deformation absorption system has been designed in such a way that no effort is generated in guiding the reculping mass. Said thermal deformation absorption system is specified in guide means in the form of bars which have been allowed to move in the direction of thermal deformations.

Advantageously, the system allows the integration of weapons into mobile platforms, minimizing the loads transmitted to them.

In a second aspect, the invention relates to a system for integrating a weapon onto a mobile platform, comprising a system for fixing to the mobile platform, a system of rotation gears, a control and control cabinet, a guidance system , a weapon system tube cooling system and a load absorption system.

BRIEF DESCRIPTION OF THE FIGURES

To complement the description that is being made and in order to help a better understanding of the features of the invention, according to an example of preferred and practical embodiment thereof, an integral part of said description is attached, a figure in where for illustrative and non-limiting purposes, the following has been represented:

Figure 1 shows an embodiment of the load absorption system according to the invention. DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT

Figure 1 shows a system for integrating a weapon (2) into a mobile platform (not shown) comprising a load absorption system according to the invention.

The integration system of the figure comprises a mooring base (6) as a fixation to the mobile platform, which is continued in a crown ring rotation gear system (5), so that the system can rotate in 360 ° of orientation. On the crown ring (5) the base plate and the step of the head of the piece (7) are placed. The control and control cabinet (8) is located in front of the rung of the head of the workpiece, finishing at the top of the workpiece desk (9). The whole set is integrated into the control setting system (4). The guidance system (3) sits on the base plate (7), so that it allows its control in elevation and thus guarantee the possibility of positioning for any possible orientation and elevation of the weapon (2) to be integrated. Inside the cooling system (1) and the guidance system (3) are the gun tube (2) and the dynamic load absorption system of the invention.

The control of a positioning system allows the positioning of the weapon tube by means of GPS coordinates, inertial systems (gyroscopes) and also by means of traditional methods of aiming of artillery systems.

The integration system has a high precision, both in stop and in motion platform. In addition to simplifying the integration, it facilitates the positioning of these elements by means of high precision mechanical drives, both static and dynamic.

The system allows 360 ° rotation in orientation, in addition to elevation between 0 and 90 °.

The absorption system of the invention absorbs more than 90% of the recoil force, which allows for example a 60 mm or 81 mm caliber mortar to be mounted in a light vehicle, of the order of 4000 Kg.

Claims

1.- A dynamic load absorption system transmitted by a weapon equipped with a reclining mass, the load absorption system being adapted for integration on a mobile platform and where the reclining mass comprises a braking system.

2. The dynamic load absorption system according to claim 1, comprising guiding means for guiding the recliner mass in its recoil movement and damping means.

3.- A system for integrating a weapon (2) on a mobile platform, which comprises a system for fixing to the mobile platform (6), a rotating gear system (5), a command and control cabinet (8 ), a guidance system (3), a weapon system tube cooling system (1) and a load absorption system according to any one of claims 1 or 2.