EP2880393A1 - Device for cocking a weapon, weapon station and method for operating a weapon - Google Patents

Abstract

The invention relates to a device for cocking a weapon (11), particularly an automatic weapon, with an axially movable actuating element (2) which can be coupled to a weapon-side cocking element (11.1) in order to cock the weapon (11), wherein a control device (3), via which the actuation element (2) is actuated to secure and release the weapon (11), can be coupled to a weapon-side securing element (11.2). The invention further concerns a weapon station with a weapon (11) and a cocking device, and also a method for operating a weapon (11) which can be cocked via a cocking device (1).

Description

 Device for tensioning a weapon, weapon station

 and method of operating a weapon

The invention relates to a device for tensioning a weapon, in particular a machine gun, with an axially movable actuating element which can be coupled for tensioning the weapon with a weapon-side clamping element. Another object of the invention is a weapon station with a weapon, in particular a machine gun, and a tensioning device with an axially movable actuating element, which is coupled for tensioning the weapon with a weapon-side clamping element. Furthermore, the invention relates to a method for operating a spanned by a tensioning device weapon, in particular a machine gun, wherein for tensioning the weapon an axially movable, coupled with a weapon-side clamping element actuating element of the clamping device is moved in the clamping direction of the weapon.

In particular, in the field of machine guns various types of weapons are known, which must be stretched in each case before the first firing of a tensioning element. About the clamping element of the rücklau- fenden part of the weapon is spent mostly against the force of an exciting spring in a clamping position. Upon actuation of the weapon, the returning part of the weapon is driven by the force of the spring then accelerated in the direction of ammunition to be fired and then, after the firing, due to the resulting recoil moved back towards the clamping position. This process is then repeated for each additional shot delivered, resulting in a kind of pendulum movement of the returning part of the weapon and a large number of shots can be delivered within short periods of time. To prevent inadvertent firing, it is also often provided that the weapon can be transferred from an unlocked to a secured state, in which, for example, the returning part of the weapon is blocked, so that a firing is not possible. For this purpose, a manually operable securing element is often provided, for example in the form of a back and forth between two positions bolt over which the weapon can be transferred from an unlocked in a secure state and vice versa. When manual operation of the weapon, the clamping and securing or unlocking no major difficulties, since the corresponding steps by the shooter can be easily performed by hand.

Special requirements arise with such weapons, which can be operated via an approximately arranged on the roof of a military vehicle weapon station by the shooter, for example, a protected against ballistic threats vehicle interior. Because with such weapons, the clamping and securing or unlocking the weapon is not done by hand but automated. Conventionally, both the clamping element and the securing element are actuated for this purpose in each case via a separate drive, which, however, has proven to be costly both in terms of apparatus and control technology.

A weapon station is known from EP 1 499 844 B1, in which the weapon arranged in the weapon station can be tensioned as well as secured or released by a single motor drive, whereby the apparatus and control technology expenditure can be kept comparatively low. For this purpose, the weapon station has an actuating element which can be moved axially in the manner of a spindle nut via a motor drive, wherein the actuating element can be coupled with a weapon-side clamping bolt, which is in the travel of the actuating element and can be taken axially by this for tensioning the weapon , At the same time a spring-loaded locking lever is operated via the actuating element, via which the weapon is secured or released. The locking lever is moved by the movements of the actuating element between a release and a locking position back and forth, wherein the locking lever in the blocking position blocks the movements of the weapon-side clamping element, which also blocks a movement of the returning part of the weapon and thus an unintentional firing is prevented. A disadvantage has been found in such a device that arranged at the weapon station locking lever does not cooperate with the actual fuse element of the weapon, but the backup of the weapon is done only by blocking the tension element, resulting in unfavorable situations, such as the removal of the weapon from the weapons station, which poses the danger of an unwanted shot being fired.

The invention is therefore based on the invention to provide a device, a weapon station as well as a method for tensioning a weapon, in which the weapon can be in a simple and reliable way not only clamping but also backup or Entsichern.

This object is achieved in a device or a weapon station of the type mentioned above by a control device, via which the actuating element for securing and releasing the weapon can be coupled or coupled with an armature-side securing element.

Due to the coupling or coupling of the actuating element via a control device with the weapon-side securing element, the weapon can be clamped in a simple manner and at the same time also securing or releasing. For the safety or Entsicherungsfunktion no additional drive is required due to the coupling with the actuator. By coupling with the gun-side fuse element also a particularly reliable backup of the weapon is achieved, in which itself when removing the weapon from the weapon station increased risk of unwanted shot firing does not exist.

In a further development of the invention, it is proposed that the actuating element for tensioning the weapon as well as for securing and unlocking the weapon can be moved by means of a drive, in particular an electric motor. The use of an electric motor drive results in a control technology as well as cost-advantageous construction. Preferably, the drive is designed as a linear drive, for example as a spindle drive or as a rack drive.

A further embodiment of the invention provides that the control device has a control element which can be moved jointly with the actuating element and a control element which is arranged on the weapon side. While the one control element is coupled to the operating element of the tensioning device, the weapon-side control element is coupled to the weapon-side securing element. The two controls are used to transfer the movements of the actuator in a defined movement of the weapon-side fuse element. Particularly preferably, the control elements convert a linear movement of the actuating element into a linear movement directed orthogonally to this movement or a pivoting movement of the weapon-side securing element. By moving the actuating element, the weapon can be secured or unlocked in this way, via the securing element provided on the weapon.

Preferably, the weapon-side securing element is designed as a sliding or rotational security. The weapon-side safety element can be attached to the upper page, the bottom or a side surface, preferably be arranged on the pointing in the direction of the clamping device side surface of the weapon.

In terms of design, it has proved to be particularly advantageous if the controls interact in such a way that movements of the actuating element in and / or against the clamping direction of the weapon are transferred into a movement of the securing element transversely to the clamping direction of the weapon. In constructive development, the control element, which is movable together with the actuating element, is designed in the manner of a control cam. By the control cam, the axially pointing in the clamping direction of the weapon movement of the control element arranged on the control element can be easily converted into a transverse or pivotal movement of the weapon side arranged control element.

A further advantageous embodiment provides that the control cam has control sections which extend in an angled relative to the clamping direction of the weapon direction. On the control sections, the movement of the control element arranged on the control element is transmitted to the control element arranged on the weapon side. Between the control sections lying portions which are aligned parallel to the clamping direction of the weapon, do not serve to transmit movements to the weapon-side control.

In a further embodiment of the invention, the control cam on a bypass for bypassing the control sections. This embodiment is particularly advantageous for weapons that are stretched only in the unsecured state can. In such weapons can be used to tighten the weapon first of parallel to the clamping direction of the weapon extending bypass of the control cam and then the weapon can be secured by starting the control sections. In the control sections, the weapon-side securing element is folded or switched, as a result of which the returning part of the weapon is blocked on the weapon side. Preferably, the ends of the control cam together with the bypass form a straight section over the entire length of the control cam. In particular, two control sections branch off from this straight section, which are preferably connected to one another via a section running parallel to the straight section. The bypass extends on the first straight section between the two control sections.

In a further development of the invention it is provided that the bypass on and / or output side is provided with switches. With the switches either the control section or the bypass can be enabled or disabled. The switches are preferably set up in such a way that they release the bypass when the weapon is cocked and release the control sections when the weapon is moved back or for securing.

A further embodiment of the invention provides that the weapon side arranged control is designed in the manner of a release lever. This is used to operate the gun-side fuse. The control element disposed on the weapon side preferably has means for coupling with the weapon-side securing element, in particular a clamping element.

As a constructive advantage, it has also been found, when the controls are coupled together via an intermediate element. The intermediate element can be guided on the actuating element side arranged control element, in particular the control cam, and in this way transmit a movement of this control element on the weapon side arranged control. The intermediate element can be firmly connected to the control element arranged on the weapon side.

According to a further embodiment of the invention, the control elements are coupled to each other via the intermediate element such that axial movements of the control element are transferred via the control sections in transverse movements of the weapon-side control element. Due to the transverse movements of the weapon-side control element, the weapon is released or released due to the coupling with the weapon-side securing element.

In a further development of the device or weapon station, the control sections form a control path which points transversely to the clamping direction and is larger than the securing path of the securing element. In this way it can be ensured that the backup of the weapon is reliably operated. Manufacturing and / or assembly tolerances are reliably compensated. In constructive terms, it has also proven to be advantageous if the intermediate element to compensate for differences between the control path and the safety path is resilient. A resilient design of the intermediate element allows on the one hand the compensation of tolerances and on the other hand it is possible to secure weapons with different security with the device and to release. Preferably, the intermediate element has a leaf spring. In a method of the type mentioned, the above object is achieved gel ö st, that the actuating element is coupled via a control device with a weapon-side securing element and is moved axially to secure and unlock the weapon.

By coupling the movable to tighten the weapon actuator with the gun-side fuse element via a control device, the weapon can be in a simple way clamping and at the same time Save or Unlock. For the safety or Entsicherungsfunktion no additional drive is required due to the coupling with the actuator. By coupling with the weapon-side fuse element also a particularly reliable backup of the weapon will be achieved because even with the removal of the weapon from the weapon station increased risk of unwanted shot firing is not given.

To carry out the method, the tensioning device can have all the features previously described in connection with the device or the weapon station individually or in combination. Further details of a device according to the invention as well as a weapon station according to the invention and a method according to the invention are explained below with the aid of the accompanying drawings of exemplary embodiments. Show:

1 is a schematic plan view of a device according to the invention in a schematic, not all components pointing view, 2 is a schematic plan view of a device according to the invention in a schematic, not all components pointing view,

Fig. 3 is an enlarged view of a device according to a first

 Embodiment,

Fig. 4 a - e are schematic views of a device as shown in Fig. 3 for illustrating the operations during clamping and

Securing or releasing the weapon,

Fig. 5 is an enlarged view of a device according to a second

 Embodiment and

6a-e are schematic views of a device according to the illustration in FIG. 5 for illustrating the operations during clamping and securing of the weapon;

Figures 1 and 2 show a weapon 1 1, which is a commercially available, also manually operated machine gun, which is received in a weapon station 10 only partially shown.

About the weapon station 10, the weapon 1 1 can be directed by a shooter in azimuth and elevation to a target to be combated. The shooter may be at some distance from the weapon 1 1 in a protected against military threats space, such as a ballistic protected Vehicle cabin, stop so that the shooter is protected during the firing from enemy threats.

However, before the weapon 1 1 can be operated, it must be stretched over a arranged on the weapon 1 1 clamping element 1 1 .1, for which the clamping element 1 1 .1 is moved against the firing direction of the weapon 1 1 in a clamping position. It is spent on the clamping element 1 1 .1, not shown in the figures, returning part of the weapon 1 1 against the force of an exciting spring in a clamping position. When triggering the weapon 1 1 then the returning part of the weapon 1 1 is accelerated over the cocked spring in the direction of the ammunition and triggers the shot with his impact on the ammunition. After the shot was delivered, the returning part of the weapon 1 1 is moved by the resulting recoil back into the clamping position. This results in multiple triggering of the weapon 1 1 is a pendulum motion of the returning part of the weapon 1 1 and it can be issued within a short time a plurality of shots.

Before the first firing it is also necessary to unlock the weapon 1 1. The weapon 1 1 has this one on the weapon 1 1 arranged, designed in the manner of an axially movable bolt fuse element 1 1 .2, which blocks the returning part of the weapon 1 1 in its secured position, so that in the secured position of the weapon 1 1 no shots can be fired. The shooting is possible only when the fuse element 1 1 .2 has been transferred to a secured position.

The tensioning, securing and releasing the weapon 1 1 prepares in a manual operation usually no difficulties, since the corresponding clamping and securing elements are arranged directly on the weapon 1 1 and can be operated by skilled shooters within a very short time. Special requirements arise in the operation of the weapon 1 1 within the remote-controlled weapon station 10, to which a tensioning device 1 is provided, the details of which will be discussed below.

1 shows a device 1 for clamping and securing a weapon 1 1 with a drive 7 in the clamping direction of the weapon 1 1 axially movable actuator 2. The actuator 2 as well as the associated drive 7, which is for example an electromotive Linear drive can be arranged at the weapon station 10 and interact with the inserted into the weapon station 10 weapon 1 1 together.

The actuator 2 is coupled to the weapon-side clamping element 1 1 .1 such that the clamping element 1 1 .1 follows the axial movements of the unauthorized activation elements 2, so that the weapon 1 1 by moving the Actuate the ^¬ restriction member 2 can be tightened.

As in particular the illustration in FIG. 2, in which the weapon-side clamping element 1 1 .1 is not drawn, shows, the actuating element 2 has a double function. Because the actuator 2 is not only used for clamping the clamping element 2, but at the same time for actuating the weapon-side fuse element 1 1 .2. For this purpose, the actuating element 2 is coupled via a control device 3 with the securing element 1 1 .2, so that by appropriate movements of the actuating element 2, the weapon 1 1 can be secured and unlocked.

In the following, constructional details of a first exemplary embodiment will first be described in detail with reference to the representation in FIG. 3, before then with reference to the representations in Figs. 4a to 4e, the corresponding operations during tightening and securing the weapon 1 1 are described with the device 1. FIG. 3 shows a tensioning device 1, which extends substantially parallel to the weapon 1 1 inserted into the weapon station 10. For clamping the weapon 1 1, a linear drive 7 is provided, via which an actuating element 2 in a direction parallel to the firing direction of the weapon 1 1 can be moved back and forth. With the actuating element 2, both the clamping element 1 1 .1 of the weapon 1 1 and the securing element 1 1 .2 of the weapon 1 1 are coupled, so that both the clamping element 1 1 .1 and the securing element 1 1 .2 can be operated on the common actuator 2 and thus with only one drive 7. The coupling of the actuating element 2 with the clamping element 1 1 .1 of the weapon 1 1 is such that the clamping element 1 1 .1 follows the movements of the actuating element 2. The actuating element 2 forms so far a driver for the clamping element 1 1 .1 of the weapon 1, via which the clamping element 1 1 .1 in its clamping position convict and let the weapon 1 1 tension. In the embodiment, the clamping element 1 1 .1 of the weapon 1 1 a bolt-shaped portion 1 1 .3, which engages in a U-shaped opening of the actuating element 2. About the two legs 2.1, 2.2 of the U-shaped opening, the clamping element 1 1 .1 be taken in two directions.

The coupling of the actuating element 2 with the securing element 1 1 .2 of the weapon 1 1 via a control device 3. While the coupling of the actuating element 2 with the clamping element 1 1 .1 is such that the clamping element 1 1 .1 follows the movements of the actuating element 2, the coupling of the actuating element 2 with the securing element 1 1 .2 such that the movements of the actuating element 2 via the control device 3 in a different direction movement of the securing element 1 1 .2 transferred who - the.

In the case of the weapon 11 provided in the exemplary embodiment, the securing or unlocking takes place by linear displacement of the securing element 11 .2 transversely to the direction of the weapon 11. However, the invention is not limited to weapons 1 1 with such fuse elements 1 1 .2. For example, the fuse element 1 1 .2 for securing the weapon 1 1 also pivoted or rotated. These movements can also be generated in a device 1 according to the invention by means of a suitable control device 3 from the linear movement of the actuating element 2.

The control device 3 has an actuating element-side control element 4 and a weapon-side control element 5, which are connected to one another via an intermediate element 6. The actuating element-side control element 4 is coupled to the actuating element 2 in such a way that it moves together with the actuating element 2. When tightening the weapon 1 1, the control 4 therefore follows the movements of the actuating element 2. The control element 4 is formed in the manner of a control cam having different sections. The two ends of the control cam 4 are formed by linear sections 4.1, 4.2, which are parallel to the clamping direction of the weapon 1 and thus to the direction of movement of the actuating element 2 erstre- CKEN. In the embodiment, the end-side linear sections 4.1, 4.2 of the control cam 4 are arranged in alignment with each other. At the two end sections 4.1, 4.2 joins towards the center of the control cam 4 depending on a control section 4.3, 4.4 at. The control sections 4.3, 4.4 extend in a direction opposite to the end-side sections 4.1, 4.2 angled direction. In the control sections 4.3, 4.4 are angled linear sections, but it can also be used differently shaped control sections 4.3, 4.4, in particular arcuate control sections. The two control sections 4.3, 4.4 are arranged symmetrically with respect to a center plane of the control cam 4 and between them include a middle linear section 4.5, via which the control sections 4.3, 4.4 are connected to each other, so that a continuous control curve 4 results. The middle linear section 4.5 is offset parallel to the end-side linear sections 4.1, 4.2, so that a kind of trapezoid results.

The weapon-side control element 5 is coupled to the weapon-side securing element 1 1 .2 and serves to transmit a movement of the actuating element 2 on the weapon-side securing element 1 1 .2. By a movement of the control element 5, the fuse element can be 1 1 .2 switched, so be moved between an unlocked and a secure position of the weapon 1 1 back and forth.

For coupling with the weapon-side fuse 1 1 .2, the control 5 has an opening 5.5, in which the weapon-side fuse 1 1 .2 is held. The opening 5.5 is bounded by two substantially parallel legs 5.1, 5.2. The legs 5.1, 5.2 clamp the fuse element 1 1 .2 between them, for which the opening 5.5 may have a certain undersize relative to the securing element 1 1 .2. To some Movements of the weapon-side securing element 11.2 with respect to the wafer-side control element 5, the ends of the legs 5.1, 5.2 in the contact area with the weapon-side securing element 11.2 each have a survey 5.3, 5.4. In order to facilitate insertion of the securing element 11.2 into the opening 5.5, the elevations 5.3, 5.4 are each provided with insertion bevels. Overall, the weapon-side control element 5 of pincer-shaped geometry and is pivotally mounted about a pivot axis A, preferably in a pivot bearing of the device 1, not shown in the figures.

The two control elements 4, 5 are connected via the intermediate element 6 with each other in operative connection. The intermediate element 6 is fixedly connected at one end to the weapon-side control element 5, so that a movement of the intermediate element 6 leads to a pivoting movement of the control element 5 about the axis A. The intermediate element 6 is coupled to the actuating element-side control element 4 at the other end. For this purpose, the intermediate element 6 has a sliding element 6.1, which is guided in the manner of a sliding block in the control element 4 designed as a control cam. When moving the control element 4 together with the actuating element 2, the sliding element 6.1 moves in the control cam 4. The resulting movement leads to a movement of the intermediate element 6 and thus to a pivotal movement of the control element 5, whereby the securing element 11.2 of the weapon 11 can be switched. Hereinafter, the operations during tightening and securing or releasing the weapon 11 will be explained in detail with reference to the illustrations in FIGS. 4a to 4e. FIG. 4a shows the device 1 with a non-tensioned, unlocked weapon 11. For tensioning the weapon 11, the actuating element 2 moves from the front position shown in FIG. 4a against the weft direction of the weapon 11 into the clamping position shown in FIG. In this case, the actuating element 2 takes the tensioning lever 11.1 of the weapon 11 with it, as a result of which also the return part of the weapon 11, not shown in the figures, is transferred into its tensioning position. In this position, the weapon 11 is stretched and so far prepared for the delivery of a first shot. After the weapon 11 has been tightened, the actuating element 2 can be moved back together with the clamping element 11.1 of the weapon 11 in the weft direction.

During the movement of the actuating element 2, the securing element 11.2 of the weapon 11 is simultaneously actuated, since the actuating element 2 is coupled to the securing element 11.2 via the control device 3. Since the actuator 2 is fixedly connected to the control cam 4 formed as a control 4 of the control device 3, the actuator 2 takes the control 4 with. During this movement, the sliding element 6.1 of the intermediate element 6 passes through the control cam 4, so that the control element 5 pivots about the pivot axis A.

In the position according to FIG. 4 a, the weapon 11 is unlocked, which can be recognized by the fact that the securing element 11. 2 is in the end position shown in the drawings. During the movement of the actuating element 2, the weapon 1 remains unlocked until the intermediate element 6 or its sliding element 6.1 enters the section 4.1 and into the control section 4.3. The control section 4.3 is opposite to the section 4.1 employed, so that the intermediate element 6 and with this the rotatably mounted control element 4 are moved according to the pitch of the control section 4.3 until the securing element 1 1 .2 has reached its secured position as shown in Fig. 4b, in which a firing even when the weapon 1 1 tense not possible. Upon further movement of the actuating element 2, the intermediate element 6 passes through the middle section 4.5, which, however, is aligned parallel to the end sections 4.1, 4.2, but offset relative thereto. When passing through section 4.5, the weapon initially remains in its secured state until the next control section 4.4 is reached. The control section 4.4 is oriented in opposite directions to the control section 4.3, so that the fuse element 1 1 .2 is unlocked again after passing through the second control section 4.4. As soon as then also according to the illustration in Fig. 4c of the end-side linear gate 4.2 has been traversed, the weapon 1 1 is unlocked and stretched.

The actuator 2 is moved after tightening the weapon 1 1 back to its original position, see. Fig. 4d and 4e. In this case, the actuator 2 takes the control cam-shaped control 4 back with, the weapon-side fuse element 1 1 .2 in the control sections 4.4, 4.3 is switched again and the weapon 1 1 in the position shown in Fig. 4e in cocked and unlocked state ,

If the weapon 1 1 now be secured, the actuator 2 can proceed again. Although the clamping element 1 1 .1 again taken, but this remains without influence on the returning part of the weapon 1 1, since this is already in its cocked position. The actuator 2 can therefore be moved with the goal, only the weapons tiger fuse element 1 1 .2 to switch and thus secure the weapon or to release.

To compensate for tolerances and to be able to record in a weapon station 10 different weapons 1 1, the fuse elements have 1 1 .2 different sized backup paths, the intermediate element 6 is resilient. In FIG. 4c, the securing path W ₂ which the securing element 1 1. 2 travels from the secured to the unlocked position during the transfer, and the control travel Wi, which results from the offset of the sections 4.1 and 4.2 relative to the central section 4. located. The control path Wi is greater than the safety distance W ₂ . This ensures, in combination with the formed as a leaf spring intermediate element 6 that the weapon-side fuse element 1 1 .2 is always operated effectively taking into account tolerances by the interlocking element 6 the weapon-side fuse element 1 1 .2 on the control 5 below Spring tension is held in position. The combination of the spring-formed intermediate element 6 and the difference in length of control path Wi and security W ₂ different weapons 1 1 can be stretched and secured by the tensioning device 1.

When passing through the control sections 4.3, 4.4, the sign of the bending stress of the intermediate element 6 changes, so that it presses the weapon-side securing element 1 1 .2 in the direction of its secured position in the middle section 4.5. In the two other linear sections 4.1, 4.2, the securing element 1 1 .2 is pulled over the formed as a leaf spring intermediate element 6 in the direction of its unlocked position. A second embodiment of the invention will be described below with reference to the illustrations in Figures 5 to 6e, which differs from the first embodiment in terms of the design of the control element 4 formed as a control curve, but otherwise largely coincides with this, so far as to avoid repetition The differences between this version will be discussed.

While in the first embodiment according to Figure 3, the control cam 4 only has a possible path which is traversed by the sliding element 6.1 in both the one and the other direction, the control cam 4 in the second embodiment according to Figure 5 in addition to a bypass 4.6. The bypass 4.6 connects the end sections 4.1, 4.2 of the control cam 4 directly and bypassing the two control sections 4.3, 4.4 and the offset section 4.5. In The end-side sections 4.1, 4.2 and the bypass 4.6 are in alignment with each other.

Turnouts 4.7, 4.8 are arranged on the input and output sides of the bypass 4.6, which are designed in such a way that the bypass 4.6 is traversed in one direction of movement and the path is taken via the control sections 4.3 and 4.4 in the other direction. In the exemplary embodiment, the switches 4.7, 4.8 are similar to spring-loaded check valves, wherein one of the switches 4.7 can also be designed to be controllable, which will be explained in more detail below with the aid of the illustrations in Figures 6a to 6e.

First, the actuator 2 is again in an initial position as shown in Figure 6a. To tighten the weapon 11 is the actuating element 2 then moves counter to the weft direction of the weapon 11, wherein the clamping element 11.1 is taken in its clamping position, which is shown in Figure 6c. In contrast to the operations described in the first embodiment, designed as a sliding element 6.1 end of the intermediate element 6 does not pass the control sections 4.3, 4.4 of the control 4, but takes the direct path from the one end 4.1 of the control to the opposite end 4.2 on the intervening arranged bypass 4.6. The rear diverter 4.8 temporarily swings upward against the force of a spring. When moving back the actuating element 2, however, the sliding element 6.1 then takes a different route via the control section 4.4, the middle section 4.5 and the control section 4.3 in the end section 4.1, until the end position shown in Figure 6e is reached, in which the weapon is unlocked and cocked ,

To secure the weapon, it is now possible to move the sliding element 6.1 again along the bypass 4.6 into the end section 4.2 and then to move it into the middle section 4.5, with the weapon-side securing element 11.2 being transferred to the secured position.

In this embodiment, due to the bypass 4.6 and the associated switches 4.7, 4.8 it is possible that the sliding element 6.1 or the intermediate element 6 respectively takes different paths when moving the actuating element 2 in the tensioning direction or against the tensioning direction, which is particularly the case with such Weapons 11 is advantageous, which can be stretched only in the unlocked state or can only be secured if they are also tense. The above-described device 1 as well as the above-described weapon station 10 and the method described above are characterized in that by the coupling of an arms-side fuse element 1 1 .2 with the actuator 2 for tensioning the weapon 1 1 a weapon 1 1 with the actuator 2 can be stretched and secured and by the coupling with the weapon-side fuse element 1 1 .2 even when removing the weapon 1 1 no danger for an unwanted shot release exists.

Reference numerals:

1 device

 2 actuator

2.1 thighs

 2.2 thighs

 3 control device

4 control

4.1 linear section

4.2 linear section

4.3 Control section

4.4 Control section

4.5 offset section

4.6 Bypass

 4.7 switch

 4.8 Switch

 5 control

5.1 thighs

 5.2 thighs

 5.3 Survey

 5.4 Survey

 5.5 opening

 6 intermediate element

6.1 sliding element

7 drive

 10 weapon station

1 1 weapon

1 1 .1 tensioning element Securing element bolt

A pivot axis

S clamping direction

Wi control way

W ₂ safety path

Claims

claims:

1. Device for tensioning a weapon (11), in particular a machine gun, with an axially movable actuating element (2) which can be coupled for tensioning the weapon (11) with a weapon-side clamping element (11.1),

 marked by

 a control device (3), via which the actuating element (2) for securing and unlocking the weapon (11) with a weapon-side Si cherungselement (11.2) can be coupled.

2. weapon station with a weapon (11), in particular a machine gun, and a tensioning device (1) with an axially movable actuating element (2) which is coupled for tensioning the weapon (11) with a weapon-side tensioning element (11.1),

 marked by

 a control device (3), via which the actuating element (2) for securing and unlocking the weapon (11) with a weapon side Si cherungselement (11.2) is coupled.

3. Apparatus according to claim 1 or weapon station according to claim 2, characterized in that the actuating element (2) for tensioning the weapon (11) as well as for securing and unlocking the weapon (11) via a particular electromotive drive (7) is movable.

4. Device according to one of claims 1 or 3 or weapon station according to one of claims 2 or 3, characterized in that the control device (3) in common with the actuating element (2) movable control element (4) and a weapon side arranged control element (5).

5. Apparatus according to claim 4 or weapon station according to claim 4, characterized in that the controls (4, 5) cooperate such that movements of the actuating element (2) in and / or against the clamping direction (S) of the weapon (1 1) in a movement of the securing element (1 1 .2) transversely to the clamping direction (S) of the weapon (1 1) are transferred.

6. Apparatus according to claim 4 or claim 5 or weapon station according to claim 4 or claim 5, characterized in that the jointly with the actuating element (2) movable control element (4) is designed in the manner of a control cam.

7. Apparatus according to claim 6 or weapon station according to claim 6, characterized in that the control cam (4) control sections (4.3, 4.4) which extend in an opposite the clamping direction (S) of the weapon (1 1) angled direction.

8. Apparatus according to claim 7 or weapon station according to claim 7, characterized in that the control cam (4) has a bypass (4.6) for bypassing the control sections (4.1).

9. Device according to claim 8 or weapon station according to claim 8, characterized in that the bypass (4.6) on the input side and / or with turnouts (4.4) is provided.

10. Device according to one of claims 4 to 9 or weapon station according to one of claims 4 to 9, characterized in that the weapon side arranged control element (5) is designed in the manner of a release lever.

1 1. Device according to one of claims 4 to 8 or weapon station according to one of claims 4 to 8, characterized in that the control elements (4, 5) via an intermediate element (6) are coupled together.

12. The device according to claim 9 or weapon station according to claim 9, characterized in that the control elements (4, 5) via the intermediate element (6) are coupled together such that axial movements of the control element (4) via the control sections (4.1) in transverse movements of the weapon-side control (5) are transferred.

13. Device according to one of claims 7 to 12 or weapon station according to one of claims 7 to 12, characterized in that the control sections (4.3, 4.4) form a transversely to the clamping direction facing control path (W,), which is greater than the securing path (W ₂ ) of the securing element (1 1 .2).

14. The apparatus of claim 13 or weapon station according to claim 1 3, characterized in that the intermediate element (6) to compensate for differences between the control path (Wi) and the securing path (W ₂ ) is resilient.

1 5. A method for operating a tensioning device (1) tensionable weapon (1 1), in particular a machine gun, wherein for tensioning the weapon (1 1) an axially movable, with an arms side Clamping element (11.1) coupled actuating element (2) of the clamping device (1) in the clamping direction of the weapon (11) is moved,

characterized,

in that the actuating element (2) is coupled via a control device (3) to an armature-side securing element (11.2) and is moved axially in order to secure and unlock the weapon (11).