The present invention relates to an upper receiver for a firearm, comprising a supporting part, which supports a barrel bushing for receiving a barrel, a guide for a longitudinally movable breech carrier, and an anchor for a sight.
The prior art discloses upper receivers for firearms, e.g. machine guns, made of plastics material in which the barrel bushing, the breech-carrier guide and the sight anchor are embedded as separate parts. When the firearm heats up, e.g. during a relatively long period of sustained fire, the plastics material deforms and no longer returns to its starting position. The weapon is then misaligned and, at worst, malfunctions may occur, right through to the gun becoming unusable.
The aim of the invention is to overcome the drawbacks of said prior art and to provide an upper receiver for a firearm which provides high target accuracy and operational reliability even under high stress.
This aim is achieved by an upper receiver of the type mentioned at the outset, which, according to the invention, is characterized in that the guide for the breech carrier is formed on the underside of a rail block made of metal which has the anchor for the sight on its upper side, the supporting part being made of metal and being screwed both to the barrel bushing and to the rail block.
According to the invention, the breech-carrier guide and the sight anchor are implemented in a common rail block, which is rigidly screwed to the barrel bushing via the supporting part made of metal. As a result, the sight is very securely connected to the barrel bushing, and therefore material drift and thus misalignment are prevented even under high stress. At the same time, as part of the rail block, the breech-carrier guide is very securely connected to the barrel bushing via the supporting part, and this prevents malfunctions even when the gun is used for relatively long periods of time. As a result, an upper receiver is obtained that has high target accuracy and operational reliability.
It is particularly advantageous for the supporting part to be formed by two receiver halves made of metal, which receive the barrel bushing and the rail block therebetween, the upper side of the rail block being exposed, and said receiver halves each being screwed to the barrel bushing and the rail block. The receiver halves can be manufactured in a simple manner, e.g. by milling, and, when the gun is being assembled, they only need to be screwed to the barrel bushing and the rail block. It is also very simple to dismantle the gun, by loosening the screw connections and separating the two receiver halves.
According to a preferred feature of the invention, the rail block partially overlaps the barrel bushing, the barrel bushing being screwed to the supporting part by means of screws that penetrate the rail block in the overlap region. The screws connecting the barrel bushing to the supporting part thus simultaneously fix the rail block in the supporting part.
Preferably, in this case, the rail block and the barrel bushing have aligning holes in their overlap region, into which holes a locating pin is inserted, which simplifies assembly of the gun. By means of the locating pin, the rail block and barrel bushing can first be oriented relative to one another and temporarily fixed and can then be screwed together with the supporting part or the receiver halves.
The sight could be mounted directly on the anchor provided for this purpose on the upper side of the rail block. To do this, the sight anchor of the rail block may for example be constructed directly in the form of a Picatinny rail. According to a preferred variant, it is however provided that the anchor comprises at least one dovetail guide for a Picatinny rail for detachably mounting the sight, such that a wide range of commercially available Picatinny rails can be used.
In another preferred configuration of the invention, the supporting part comprises a sliding guide for a control pin of a breech that is movable in the breech carrier. For example, the breech carrier contains a breech head that can be twist-locked in the barrel bushing, and the control pin of the breech head engages in the sliding guide of the supporting part such that, during repeating of the gun, it is accordingly detached (unlocked) from the barrel bushing and is then twist-locked therein again, as is known in the art.
It is particularly advantageous here for the sliding guide to be reinforced by a reinforcing rail, which is made of a material that is different from the metal of the supporting part, is preferably made of steel. The reinforcing rail may for example be embedded into the supporting part or is in particular screwed to the inside of a receiver half. When the breech repeats, the control pin exerts a sudden, high force on the sliding guide, which is absorbed by the reinforcing rail in order to prevent signs of wear.
Advantageously, the supporting part is made of light metal, preferably aluminum, which results in high deformation resistance with a low weight.
When the supporting part is formed by two receiver halves, these halves can also be used for anchoring other parts of the gun in a particularly simple manner. For example, the receiver halves receive a downwardly projecting magazine holder therebetween and are screwed thereto, which allows for simple assembly.
The invention will be explained in greater detail in the following with reference to an embodiment shown in the accompanying drawings, in which:
The terms “lower ” and “upper ” relate to the normal usage position of the gun, as shown in
The barrel bushing 4 has a central hole 9 for receiving the rear end of the barrel (not shown), which can for example be screwed to an outer thread 10 of the barrel bushing 4 by means of a cap nut. On its rear side, the barrel bushing 9 has a circle of bayonet grooves 11, to which a toothed-collar-like breech head can be twist-locked that is longitudinally movable and rotatably mounted in the breech carrier 7, as is known in the art.
In the example shown, the breech-carrier guide 6 on the underside of the rail block 5 is a T groove, in which an upper part 12 of the breech carrier 7, which upper part 12 is T-shaped in profile, is slidably guided. The breech-carrier guide 6 could, however, also have a different cross-sectional shape, which interacts with an accordingly complementary part of the breech carrier 7 to mount this in the upper receiver 1 in a longitudinally movable manner.
The sight anchor 8 of the rail block 5 may for example be formed by holes, tabs, undercuts or the like on the upper side of the rail block 5. In the example shown, the sight anchor 8 comprises a plurality of dovetail guides distributed over the longitudinal direction of the rail block 5, onto which a Picatinny rail (not shown) having a dovetail groove on the underside can be slid; in a manner known per se, the sight can then be adjustably and detachably mounted on the Picatinny rail, in the same way as other add-on parts of the gun, e.g. grenade launchers, bayonets, laser pointers, spotlights, etc.
The other components of the gun are generally also mounted on the upper receiver 1, more specifically on the supporting part 2, for example a fore-end in the region 13 in front of the upper receiver 1, a magazine in the region 14 below the upper receiver 1, a trigger mechanism in the region 15 below the upper receiver 1, and a stock or shoulder rest in the region 16 to the rear of the upper receiver 1. For anchoring these gun components, the upper receiver 1 may for example contain a fore-end connection block 17, which is received between the receiver halves 3′, 3″ so as to project downwards and is screwed thereto by means of screws 18; a downwardly projecting magazine holder 19, which is received between the receiver halves 3′, 3″ and is screwed thereto by means of screws 20; a hinge 21 comprising a hinge pin 22 in the rear region of the upper receiver 1, for example on the rear end of the right-hand receiver half 3″, in order to articulate a hinged shoulder support or a folding stock; and a receptacle 23 comprising anchoring holes 24 for anchoring a trigger mechanism in the region 15, which interacts with the breech carrier 7 and the breech head guided therein. The barrel (not shown) can be oriented in its rotational direction by means of a dowel pin 25, which penetrates the wall of the barrel bushing 4 and engages in a corresponding recess in the barrel.
By forming the breech-carrier guide 6 and the sight anchor 8 on the common rail block 5, the breech-carrier guide 6 and the sight 8 are rigidly fixed in position relative to one another. By screwing both the barrel bushing 4 and the rail block 5 to the common supporting part 2, more specifically to each of the receiver halves 3′, 3″, the barrel bushing 4 is also rigidly fixed in position relative to the breech-carrier guide 6 and the sight anchor 8. This results in stable adjustment of the sight anchor 8 relative to the barrel received in the barrel bushing 4 and therefore in dimensionally stable, permanent adjustment of the sight relative to the barrel.
The rail block 5 is screwed to the supporting part 2 or the receiver halves 3′, 3″ by means of a set of screws 26, which each penetrate lateral holes 27 in the receiver halves 3′, 3″ and engage in corresponding threaded holes 28 in the rail block 5. The barrel bushing 4 can be screwed to the supporting part 2, or the receiver halves 3′, 3″, respectively, by means of separate screws or, as shown, some of the screws 26 can be co-used for this screwing. For this purpose, the rail block 5 overlaps the upper part 30 of the barrel bushing 4 by way of two downwardly directed attachments 29. In this overlap region, the screws 26 penetrate the holes 28 in the attachments 29 of the rail block 5 and engage in threaded holes 31 in the upper part 30 of the barrel bushing 4. The barrel bushing 4 is thus fixed in the supporting part 2 at the same time as the rail block 5.
In order to make it easier to screw together, the barrel bushing 4 can be pre-fixed to the rail block 5. To do this, the rail block 5 and the barrel bushing 4 have holes 32, 33 that align in the overlap region, into which holes a locating pin 34 can be inserted, which temporarily holds the barrel bushing 4 between the attachments 29 of the rail block 5 until it is screwed to the receiver halves 3′, 3″ by means of the screws 26. When screwed together, the receiver halves 3′, 3″ retain the locating pin 34 between them.
In order to lock and unlock the breech head guided in the breech carrier 7, the supporting part 2 comprises a sliding guide 35 for a control pin 36 of the breech or breech head guided in the breech carrier 7 on its inside, in particular on the left-hand receiver half 3′ here. In the example shown, the sliding guide 35 is a groove extending in the longitudinal direction of the gun on the inside of the receiver half 3′. In order to reinforce the sliding guide 35, it can be reinforced with an insert made of a harder material than the supporting part 2, for example made of steel, if the supporting part 2 is e.g. made of light metal, such as aluminum. In the example shown, for reinforcing the sliding guide 35, a reinforcing rail 37 is provided which forms a portion of the upper side wall of the sliding guide groove and is screwed to the receiver half 3′ by means of screws 38.
Instead of such a reinforcing rail 37 in portions, the entire sliding guide 35 could also be produced from an insert made of harder material than the receiver half 3′, e.g. of high-carbon steel.
The invention is not limited to the embodiments set out, but instead covers all the variants, modifications and combinations thereof that fall within the scope of the appended claims.
Number | Date | Country | Kind |
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A 504772019 | May 2019 | AT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/AT2020/060133 | 3/30/2020 | WO |