DE3644908A1 - PROTECTIVE SYSTEMS - Google Patents

Description

The invention relates to gun systems, in particular drawn howitzer systems.

The British light gun L 118 (below known as "light gun") known artillery gun system is a well-known artillery gun system manufactured by the present applicant and on sale is. The construction of this system shows Pipe on which is stored in a cradle on a carriage is a top mount mounted on a short pin has, the tube with respect to the pin through a beam arrangement is balanced in terms of weight has tubular spars that are behind the tube to the ground run. The pin is attached to a lower mount, to which the spars are attached, and the lower The carriage is supported on axles that carry wheels allow the system to be pulled if necessary.

The light gun has a very functional light Construction that pulls the system through a country vehicle or transport by helicopter.

However, it is for use in certain applications desirable a new gun system design to create the, based on the size of the gun, compared to known system designs such as as that of the light gun further weight offers savings.  

According to the present invention, a gun system a tube mounted on a carriage and a Beam arrangement for producing a stable weight like the tube on the carriage, the carriage an upper carriage through which the rear end of the tube is supported, a support structure on which the Top mount is mounted on a base that is on the floor can be put on or anchored in it, and a ver bond between the support structure and the base has a pivoting of the support structure and the Upper mount relative to the base allows.

The gun system according to the present invention uses a new stabilization principle to the gun keep weight balanced when returning the pipe.

In the case of artillery gun systems, this is done using the spar arrangement acting stabilizing moment, which the tube in a stable state with respect to the center of gravity of the system keeps balanced, then decreases when the pipe moves backwards during rewinding, causing the Center of gravity shifts to the spars. At acquaintances Systems like light guns will Stabilizing moment, however, during and after the pipe return run sufficiently large due to the weight of the bars.

In contrast, the gun system makes after the present invention of a stabilization principle Use that in its application to artillery systems is new. The tendency to reduce the Stabilizing moment due to the shift in gravity center during the pipe return is indicated by a trend to increase the stabilizing torque by rotating the Top mount relative to the connection mentioned opposite works. The overall effect is that the gun system in a stable position by a spar arrangement  Can be compared, which, based on the size of the Ge protection system lighter than that of known systems can be.

The gun system of the present invention can have additional funds that help the system during the pipe return in a stable balanced Keep condition. For example, the stabilization moment can be increased by moving the tube backwards the shield cones can be moved upwards, like it in a pending application of the present Applicant is described by the same day.

The spar arrangement of the system according to the invention can consequently have two spars, which are made of a light Material, for example a composite material such as fiber-reinforced plastic material, are made or contain one.

The top mount is preferably directly above the Rail assembly mounted, for example above the pipe near the spar ends, where these are attached to the support structure can be, preferably at a distance from the ground.

This arrangement combined with the rotatability of the Upper carriage by swiveling around the named connection requires that the spar arrangement a It experiences bending stress, but the pressure load on the spar arrangement is significantly reduced. Such one Load is for light materials, for example composite materials is potentially harmful and their reduction is therefore very advantageous. In contrast, the spars in known constructions usually due to the Pipe return both a considerable bending stress as well as absorb a significant amount of pressure.

The support structure at the system according to the invention may have a support column in the form  one attached to the top mount by means of a rifle Can be present.

The named connection in the system according to the before lying invention can be a flexible or universal ver be a bond, for example a ball joint. For example can be a formed on the base and up from this protruding projection have a spherical surface that engages in a complementary pan, which by an the support structure, for example a column or a Pin-fastened sleeve or sleeve is formed. A such connection not only prevents excessive ver reducing the stabilizing moment by doing as above explained, a rotation of the upper carriage allows, but it also makes it easier to support the top mount when the base is on an uneven floor.

The spar arrangement preferably has two spars, the ends with earth spurs to anchor the spars are equipped in the floor. Preferably, the under the upper carriage part of the spars made of a metal, for example steel or a titanium alloy because of this Part of the pipe return is exposed to the greatest loads.

If the spars one made of composite material Part, this part of the spars can be made of any known high-strength composite material can be formed. At for example, he can use any known reinforcement contain fibers, e.g. from one or more of the materials Carbon, glass, aramid, metal or polyolefin, which in embedded in a polymeric matrix material that a curable, for example thermosetting plastic or can be a thermoplastic material as for the Expert in composite materials technology generally known is. The reinforcing fibers can be woven or unwoven be and their direction can be chosen so that one  adapted the directional loads to be absorbed Strength results.

Fiber reinforced plastic layers can be used together with other layers, for example other fiber reinforced Plastics with other reinforcing fibers or with different oriented fibers, unreinforced plastics or Metal layers such as aluminum or titanium to be connected to a known layer construction.

The spars, if they are one of the above composite materials manufactured part are preferred wise tubular with approximately square, rectangular, circular or any other suitable cross cut. The cross section enclosed by the pipe shape area may decrease along the length of the bar. The The overall shape of spars can be straight or curved.

The tube can be supported on the top mount by fastened it in a shield pin to the top mount Pipe cradle is stored. The angle of elevation of the pipe can can be set by a known increase system. The recoil forces generated when the gun was fired can by a known, between the cradle and the damper arranged in the tube can be damped, and the tube can be brought forward by a well-known leader. The gun system can also be known equalizers and a have known side straightener.

The gun system of the present invention can a light drawn, large caliber howitzer, e.g. of 155 mm. Pulling is possible with the help of wheels that are stowable while the system is in use. The system can also with attachments for air transportation, for example wise by helicopter, what because of the the new construction obtained light weight is possible.  

Embodiments of the invention are set out below For example, reference to the accompanying drawings described in which shows:

Fig. 1 is a side view of the gun system,

Fig. 2 is a partially sectioned side view of a form of connection shown in more detail for use in the system shown in Fig. 1.

In Fig. 1, a tube 1 with a known muzzle brake 2 is mounted in a cradle 3 , which is supported by a shield 7 and conventional raising arms 9 (only one shown in FIG. 1) on an upper carriage 2 .

The tube 1 and the cradle 3 are balanced by spars 13 (only one shown in FIG. 1) with respect to a shooting platform 11 . The spars 13 are anchored in the ground G by means of earth spurs 15 attached thereto, and the shooting platform 11 is also anchored in the ground.

The spars 13 are formed along the lower part of their length from fiber-reinforced plastic composite material, but their upper part 17 directly below the upper mount 5 is made of metal. The upper mount 5 is mounted above the shooting platform 11 on a support structure 21 , which has a joint 23 which allows the upper mount 5 to be rotated about the joint 23 . A support block 24 is attached to the underside of the upper mount 5 , where the upper mount 5 curves away from the spars 13 . When the pipe 1 is fired, the recoil forces are reduced by the muzzle brake 25 and damped by a conventional return and feed device (not shown) which allows the pipe 1 to return relative to the pipe cradle 3 under the recoil and back to its firing position after the pipe return catches up. When returning the pipe, the load on the shield pin 7 wants to rotate the upper mount 5 with respect to the joint 23 , and this rotation causes a deflection of the spars 13 , and the load is mainly absorbed from the ground via the support structure 21 and the shooting platform 11 .

As described in a co-pending patent application, the load to be borne on the pipe return can be reduced by allowing the pipe 1 and the pipe cradle 3 to move upwards by allowing the shield pins 7 to move upwards in a guideway (not shown).

The gun system can also have other components (not shown in FIG. 1), such as, for example, compensators for balancing the system with increasing angle of elevation of the tube 1 , wheels which can be folded into a rest position for pulling the gun by land vehicles, and a side straightening mechanism for side-aligning the tube.

A shape of the support structure 21 and the joint 23 is shown in FIG. 2. The shooting platform 11 , which is sunk into the ground, is formed on its upper side with a jump 33 before, the surface of which forms the larger part of a ball.

The protrusion 33 engages in a complementary socket 35 which is formed in a sleeve 37 in order to produce the joint 23 .

The sleeve 37 sits on shoulders 39 , which project sideways at the lower end of an approximately tubular pin 39 , which is fastened at its upper end to the upper mount 5 in order to carry the upper mount 5 .

The upper parts 17 of the spars 13 are hinged to the support structure 21 having the pin 39 and the bush 37 .

Claims (11)

1. Gun system that is mounted on a carriage Pipe and a spar arrangement to produce a stable Balance the weight of the tube with respect to the carriage has, the mount an upper mount, through which the rear end of the tube is supported, a support structure tion on which the top mount is mounted Base placed on or anchored on the floor can be, and a connection between the Stützkon structure and the base having a pivoting of the Support structure and the upper carriage relative to the base enables. 2. Gun system according to claim 1, the additional Has means to return the system in a pipe to keep stable weight-balanced condition by an upward movement of the shield cones during the pipe return enable running. 3. Gun system according to claim 1, wherein the Holmanord tion has two spars made of a lightweight material are produced or contain such. 4. Gun system according to claim 3, wherein the Holmanord tion has two spars, which are made of a fiber-reinforced Consist of or contain plastic. 5. Gun system according to claim 1, wherein the upper mount arranged directly above the spars at their tube-near ends is where this is spaced from the ground on the support structure are attached. 6. Gun system according to claim 1, wherein the support construction has a support column in the form of a by means of a bush attached to the upper carriage can be present.   7. The gun system of claim 1, wherein said Connection a flexible connection or a universal joint having. 8. Gun system according to claim 7, wherein a on the base arranged and protruding upwards from this crack has a spherical upper surface, which in engages a complementary pan, which is connected to the Support structure fastened sleeve or sleeve is formed. 9. Gun system according to claim 7, wherein the Holman trim has two spars that are earthed at their ends spurs are equipped for anchoring the spars in the ground. 10. Gun system according to claim 3, wherein the below the upper carriage part of the spars made of a metal consists. 11. Gun system with a support structure, in essentially as above with reference to the attached Described drawings.