EP2047206A1

EP2047206A1 - Hinge assembly for a weapon, a visor assembly, and weapon

Info

Publication number: EP2047206A1
Application number: EP07786476A
Authority: EP
Inventors: Alexander Stumpp
Original assignee: Heckler und Koch GmbH
Current assignee: Heckler und Koch GmbH
Priority date: 2006-08-03
Filing date: 2007-07-31
Publication date: 2009-04-15
Also published as: US20090241400A1; WO2008014986A1; ZA200900769B; CA2659576C; DE202006011918U1; CA2659576A1; KR20090043505A

Abstract

A hinge assembly for a weapon, in particular for a hinged visor, in which two swivel elements (1, 2; 201, 202) are coupled together by a common coupling element (7; 207) and can tilt relative to each other through the defined pivotal axis of the coupling element (7; 207), wherein the coupling element (7; 207) is built into the hinge assembly in a removable manner and exhibits a safety element (9; 209, 210) which can be brought into contact with at least one of the two swivel elements (1, 2; 201, 202). In the engaged position, said safety element (9; 209, 210) fixes the built-in coupling element (7; 207) into the hinge assembly, in particular in the direction of the swivel axis.

Description

Hinge assembly for a weapon, visor assembly and weapon

The present invention relates to a hinge arrangement for a weapon, in particular for an attachable to the weapon folding visor.

Hinge arrangements generally have at least two pivoting elements, which are coupled to one another via a coupling element arranged between them, for example a hinge pin. The coupling element simultaneously defines the pivot axis about which the two pivot elements are pivotable relative to each other. Such hinge arrangements are integrated, for example, in the sighting devices of weapons.

From DE 178 214 a frame visor with adjustable squint element is known, the sighting frame is coupled via a hinge with a sighting foot attached to the weapon. The sighting frame can be pivoted back and forth between two positions about a pivot axis extending transversely to the axis of the soul: a bearing or transport position adjacent to the weapon and an application position for target detection. The hinge or pivot axis is a pin which is inserted into corresponding eyelets on the frame and the Visierfuß. Disassembly of the hinge, i. a removal of the pin, and then a separation of visor frame and Visierfuß is not addressed in DE 178 214.

A so-called folding grain, which can be pivoted between a bearing position lying on the weapon and an application position, can be designed in a similar manner (cf., for example, US Pat. No. 6,779,290). Another hinged or hinged visor assembly with a pivotable rear sight is known for example from US Patent 3,675,534.

For versatile weapons, in particular for ordnance such as assault rifles and machine guns, it may be desirable not only to design a sighting device pivotable, but also disassembled; in such a way that certain sighting parts are interchangeable, for example, to be able to realize different sights (ring grain, bar grain, etc.) on the same weapon. Sometimes a sight must also be completely removed, for example, when a target optics are to be used on the weapon, or when the weapon is connected to a Lafettierung, which has its own sighting device.

Sight swivel assemblies must ensure accurate guidance and placement of the pivotal elements (e.g., the grain) to maintain the desired aiming accuracy despite the mobility of the sighting elements. The swivel arrangement should u.U. can be dismantled without additional tools in order to be able to replace or replace components simply - even under operating conditions.

Based on the above considerations, the object of the present invention is to provide a new hinge assembly, in particular one which allows easy disassembly of the sighting device.

This hinge arrangement is characterized by a coupling element with a securing element which can be brought into engagement with at least one of the two pivot elements and fixed in its engaged position, the coupling element, in particular in the direction of the pivot axis. This ensures, on the one hand, that the actual desired hinge Effect remains unimpaired; on the other hand that that

Coupling remains secure in its installed position, not accidentally removed, but is still easy to remove and can be replaced if necessary. The coupling element may be formed, for example, as a mountable with a fuse element or a Sicherungsabschnit having hinge pin, pin, sleeve or the like.

The developments of the invention according to the claims 2 to 6 rely on a spring-loaded fuse element, which is designed according to protection claim 3 itself as a spring element and engages in its engaged position in a corresponding recess on one of the pivot elements. In such an embodiment, for example, a hinge pin in its installed position spring-loaded latched but be removably fixed. Protection claim 4 relates to designs of the recess or of the spring element, which facilitate the removal of the coupling element by a guide inclination is provided. In the embodiment covered by the protection claim 5, the spring element is designed as a coupling element partially surrounding spring clip, which engages in the engaged position in a corresponding annular groove on one of the pivot elements and thus axially fixes the hinge element. Here, according to protection claim 6, a corresponding chamfering at the lying in the removal direction radial edge of the annular groove is provided, via which the spring clip is radially compressed during the removal of the KoppeIelements. This guide chamfer supports the removal without affecting the locking function.

The Schutzanspräche 7 to 9 relate to embodiments in which the securing element in a locking portion of the coupling element as eccentrically designed locking element (similar to a key bit) is executed. In this embodiment, the engagement position of the built-KoppeIelements on the interaction of the locking portion and the securing element with eccentrically shaped Inner contours of the hinge openings on the pivot elements and their pivot position realized to each other. Locking section and inner contours of the hinge openings are coordinated so that the removal or insertion of the coupling element is only possible if the pivot elements are pivoted to each other so that the hinge openings form a passable for the cross-sectional profile of the barrier section installation or removal passage. In deviating pivotal positions there is no continuous passage between the individual hinge openings with a corresponding profile, so that the built-in coupling element is axially fixed over the locking element in its engaged position. The installation or removal passage exists only in a specific pivot position, which is preferably chosen so that it neither the working position nor the rest position, for example, a folding grain corresponds. This prevents accidental removal of the coupling element in normal use.

The complementary design of the inner contours of the corresponding hinge openings and the outer contour of the barrier portion according to protection claim 8 improves the stabilizing effect of the built-coupling element. The responsible for the precise guidance of the pivot elements active surfaces (outer surfaces of the coupling element and inner surfaces of the hinge openings) are so largely backlash against each other.

According to protection claim 9, the locking portion is located on the coupling element in its installed position in the axial direction exactly within the corresponding hinge opening of the two pivot elements. Thus, the KoppeIelement rotates when pivoting the pivot elements relative to each other relative to the other pivot member. Thus, the coupling element exercises over its - seen in the direction of installation - before and / or behind the

Barrier section lying with, for example, cylindrical outer contours provided sections the bearing and guide function and the centering of the hinge. These sections serve as hinge pins, which rotate in the corresponding hinge openings of the pivoting element when pivoting the pivot elements to each other.

According to protection claim 10, the hinge opening of a pivoting element between the hinge openings of the other pivot member is arranged. If these hinge openings are sleeve-like, for example, the coupling element inserted in these sleeves or hinge openings ensures exact linear alignment and stable hinge guidance. On the other hand, the pivoting elements are also fixed in their axial direction exactly to each other by the hinge sleeve of a pivoting element between the two hinge sleeves of the other element is fixed in a defined position.

In embodiments to which the securing element of the coupling element is designed as an eccentric locking section, only the following hinge openings require an inner contour corresponding to the locking section: one of the two hinge openings of the first pivot element and the hinge opening of the second pivot element, which is arranged between the two hinge openings of the first pivot element. In this embodiment, the second hinge opening of the first pivoting element can have a circular or cylindrical inner profile into which a corresponding end section of the coupling element fits in a centering manner. The pointing in the direction of the hinge axis end faces of the locking portion attach the coupling element axially.

The protection claims 11 to 13 relate to developments of the invention, in which the pivot elements are fixed to each other in preferred pivotal positions. Such preferred positions are for example a rest position and a working position. In a folding visor corresponds to the rest position of a voltage applied to the weapon pivot position, and the working position of the weapon folded position in which the sighting device is functional. To fix the pivoting elements in their pivotal position, the hinge assembly according to protection claim 12 on one of its pivotal elements on a spring-loaded locking mechanism which cooperates with a corresponding locking contour on the other pivot member. When dissolved locking mechanism, the pivot elements can be pivoted to each other. For preferred pivoting positions according to protection claim 13 to the locking contour corresponding formations, in particular recesses, provided, which cooperate with a suitable locking element and in which the locking element can engage accordingly.

The protection claims 14 to 16 relate to a sighting arrangement for a weapon, in particular with a folding grain, which is provided with a hinge assembly according to the invention. In this case, according to protection claim 15, the first pivoting element is designed as a pivotable folding grain and the second pivoting element as fixed to the weapon holding piece. Thus, the folding grain is pivotally mounted on the weapon and can optionally be replaced after removal of the coupling element against another, for example, for another visor assembly. According to protection claim 16 while the second pivot member is formed as arranged in the region of the muzzle gas extraction piece. This design has two advantages: First, the gas take-off piece is usually fixed near the mouth and precisely aligned with the gun barrel, so that the longest possible sighting line is available. Second, gas take-offs are usually mechanically expensive machined components. Thus, the additional processing to form this as a pivoting element requires only a small manufacturing overhead.

Protection claim 17 relates to a weapon having a sighting arrangement with a hinge assembly according to the invention. Embodiments of the present invention will be explained below with reference to the drawings. In these show:

1 is a perspective view of a folding grain, which forms a hinge assembly according to the invention together with a gas take-off piece and a hinge pin,

2 is a sectional view (section A-A) of the arrangement shown in Fig. 1,

3 is a perspective view of a folding grain assembly having a further hinge assembly according to the invention in an alternative embodiment,

4 is a coupling element designed as a hinge pin for the folding grain arrangement shown in FIG. 3, FIG.

Fig. 5 is designed as a gas-absorbing piece

Pivoting element of the arrangement shown in FIG. 3,

Fig. 6 is a perspective view of in

3 illustrated folding grain assembly in which the folding grain is arranged in its working position,

Fig. 7 which shown in Figs. 3 and 6

Folding grain arrangement in its rest position, and

Fig. 8 is a partial sectional view of the locking mechanism. A first embodiment of the invention is shown in Figs. 1 and 2. The drawings show a folding grain 1, which is arranged pivotably on a gas take-off piece 2. The gas take-off piece 2 has a pipe receptacle 3, which is fixed, for example, in the mouth region on a weapon barrel (not shown) or a gun barrel (for example via a press fit and an additional positive locking). The pipe receptacle 3 is connected via corresponding bores (not shown) communicating with a gas cylinder piece 4, via which a gas piston and an actuating linkage (both not shown) are driven. The latter is known to operate the weapon lock. At the lower end of the folding grain 1 two fork-shaped arranged hinge plates 5 and 5 'are arranged. The folding grain 1 forms with the two hinge plates 5, 5 ¹ a first pivot member. At the top of the gas cylinder piece 4, a hinge gate 6 is formed. The hinge plates 5, 5 ¹ and the hinge gate 6 are interspersed in the assembled state of aligned hinge openings. The folding grain 1 and the gas cylinder piece 4 is assembled by a hinge pin 7, which passes through the hinge plates 5, 5 ¹ and the hinge gate 6 in its installed position.

In Fig. 2, the hinge pin 7 is shown in its installed position. He has at its one end a head 8 and at the other end a spring clip 9, which is held in a corresponding annular groove 10. The spring clip 9 and the annular groove 10 are designed so that the spring clip 9 in the annular groove 10 is radially compressible so far that it remains within the bolt contour. On the hinge plate 5 ', a bushing 11 is formed, into which the spring clasp 9 receiving end 20 of the hinge pin 7 projects into its installed position.

In the socket 11, a shoulder 12 is formed, which is designed to receive the spring clip 9. In the installation position of the hinge pin 7, the outer contour of the spring clip 9 partially behind the shoulder 12 and thus fixes the hinge pin 7 axially in its installed position, in which it passes through the hinge plates 5, 5 'and the hinge gate 6. In this case, the head 8 of the hinge pin 7 is disposed within the contour of the hinge plate 5 '(see Fig. 2).

The outer contour of the hinge pin 7 and the inner contours of the hinge holes formed in the hinge plates 5, 5 ¹ and in the hinge gate 6 are adapted to each other so that the folding grain 1 exactly guided around the hinge pin 7 between a working position (Fig. 1 and Fig. 6) and a rest position (Fig. 7) can be pivoted back and forth. Laterally or in the axial direction of the hinge pin 7, the position of the folding grain 1 is determined via the hinge gate 6, which abuts with their lateral outer surfaces on the respective inner surfaces of the hinge plates 5, 5 '.

In order to facilitate the insertion and removal of the hinge pin 7, the following is provided: On the side facing the hinge plate 5 of the hinge gate 6, the edge of the hinge gate 6 passing through the hinge opening with a bevel or bevel 13 is provided. When inserting the hinge pin 7 through the hinge opening of the hinge lug 5 and further into the hinge opening of the hinge slide 6, the spring clip 9 slides along this chamfer 13 until it is completely pressed into the annular groove 10 and thus is within the outer contour of the hinge pin 7 , The hinge pin 7 is then pushed further through the hinge opening of the hinge gate 6; On the opposite side of the hinge backdrop, the spring clip 9 widens along the chamfer 13 'incorporated therein again.

In this position, the hinge pin 7 is already secured and can not slide back without external influence. The spring clip 9 is located in the expanded position in the cavity 14. When further sliding slides the spring clip 9 at a further chamfer 15 along through the

Constriction 16 in the tab 5 'behind the shoulder 12th

The spring clip 9 enters the widened opening section 17, which, seen in the installation direction, lies behind the shoulder 12, and jumps back there again radially to its original shape. The spring clip 9 is now in its engaged position with the hinge plate 5 'and thereby fixes the hinge pin 7 in its installed position.

For removal, the trained as a radial edge shoulder 12 is also chamfered or chamfered executed; in such a way that - with a corresponding pressure on the hinge pin head 8 opposite free hinge pin end 20 - the spring clip 9 is compressed via the tapered or chamfered shoulder 12 into the annular groove 10 and from the expanded bore portion 17 slides into the constriction 16 , Thereafter, the hinge pin 7 can be further out of the hinge gate 6 of the hinge plate 5 and out.

The cavity 14 between the throat 17 in the tab '5' and the hinge gate 6 provides an intermediate catch and prevents the hinge pin 7 is pushed out in one go. This prevents that, for example, a blow on the end 20 of the hinge pin 7, this completely removed from its installed position and the folding grain 1 triggers the Gasabnähmestück 2.

The geometry of the annular groove 10 of the shoulder 12 and the chamfers 13, 13 ', 15 and the deformation properties of the spring clip 9 are set in the illustrated embodiment so that the assembly and disassembly of the hinge pin 7 can be done without tools. But the removal and insertion can be facilitated with the help of an item (eg cartridge). In another embodiment, a push-out of the hinge pin 7 supportive Ausdrückwerkzeug be used, which for example via a corresponding thread (not shown) can be attached to the bush 11. Thus, a fixed hinge pin 7 without damaging the folding grain 1 can be removed.

The folding grain 1 shown by way of example can be locked in its working position and in its rest position. The locking mechanism will be explained below in connection with another embodiment of the present invention.

Fig. 3 shows another embodiment. Here, a folding grain 201 is pivotally fixed via a hinge pin 207 to a gas take-off piece 202. In this embodiment (see Figures 3 to 7), the arrangement corresponds in principle to the embodiment described in connection with Figures 1 and 2. However, the hinge pin 207 is not provided here with a spring clip 9 as a securing element, but with a locking portion 209 which carries an eccentrically formed locking element 210. This locking element 210 is in the locking portion 209 the hinge pin 207 an eccentric contour (Fig. 4). A corresponding inner contour 216 has the hinge opening 205 passing through the hinge opening; a corresponding further inner contour 215, the hinge opening in the hinge gate 206 (Fig. 5).

In the illustrated in Fig. 3 pivot position of the folding grain 201, the eccentric inner contours 215 and 216 are arranged in alignment, so that they form a mounting or removal passage for the locking portion 209 together with locking element 210 of the hinge pin 207. In the final installation position of the hinge pin 207 of the locking portion 209 has passed through the hinge opening in the hinge plate 205 and is located entirely within the inner contour 215 in the hinge link 206. The free end 220 is in the Hinge tab 205 'arranged. Only in this shown in Fig. 3 pivoting position of the folding core 201 of the hinge pin 207 is inserted through the hinge opening in the hinge plate 205 into the further hinge opening in the hinge link 206 and removable therefrom again. In all different pivot positions (eg working position in Fig. 6 and rest position in Fig. 7), the inner contour 216 in the hinge plate 205 against the inner contour 215 in the hinge link 206 - and thus against the blocking element 210 - pivoted so that they take a of the hinge pin 207 prevented. The inner contour 216 locks the axial removal passage for the locking element 210. Thus, a removal of the hinge pin 207 in the work positions shown in Fig. 6 and 7 is not possible, and the hinge pin 207 is axially fixed in its installed position.

The folding grain 201 can be fixed in the swiveling positions shown in FIGS. 6 and 7 to the gas-absorbing piece 202 by engaging a latch 217 arranged movably in the interior of the folding grain 201 in recesses 218 and 219 arranged on the outer contour of the hinge slide 206 (see FIG ). This latch 217a can be brought via the handle 217a against the spring 217b out of engagement with the recesses 218, 219, so that the folding grain 201 can be pivoted. To remove the hinge pin 207, the latch is disengaged from the recess 218 or 219 and the folding grain 201 is pivoted to the removal position (see FIG. 3), in which the inner contours 215 and 216 are arranged in alignment. In this position, the hinge pin 207 can then be pushed axially against its insertion from the hinge plates 205 and 205 'and from the hinge backdrop 206.

This above-described locking mechanism can also be provided in the embodiment shown in FIGS. 1 and 2. In another embodiment, the securing or fixing mechanisms for the hinge pin 207 or 7 - to a locking portion 209, locking element 210, inner contour 215 of the hinge opening in the hinge link 206 and inner contour 216 of the hinge opening in the hinge plate 205 and the other spring clasp. 9 , Ring groove 10 in the hinge pin 7 and shoulder 12 and cavity 14 in the socket 11 - are combined. In such an embodiment prevents the hinge pin 207 unintentionally leaves its mounting position during pivoting of the hinged grain and may even fall out of the hinge openings when the position shown in Fig. 3 is traversed. Namely, the spring clip 9 fixes it axially in the annular groove 12. In this embodiment, the spring clip 9 can be made particularly smooth with respect to the annular groove 12.

The hinge arrangements described above in connection with a folding grain 1, 201 and a gas take-off piece 2, 202 can also be realized with other elements in further embodiments. Thus, the hinge gate 6, 206 can also be attached directly to a gun barrel or a weapon housing component. Instead of the folding grain 1, 201, another element may also be designed as a pivoting element of a hinge arrangement. Instead of the spring clip 9, other suitable spring elements can be used. Such spring elements can also be attached to the hinge elements, such as hinge lugs 5, 5 '; 205, 205 'and hinge gate 6; 206, be provided and on or in corresponding recesses on the hinge pin 7; Attack 207.

In other embodiments, spring-loaded securing elements can also be provided, for example detent balls or latching levers which releasably fix the installed hinge pin. Other embodiments will be apparent to those skilled in the scope of the appended claims.

Claims

PATENT CLAIMS

1. Hinge arrangement for a weapon, in particular for a folding sight, in which two pivoting elements (1, 2;

202) are coupled to each other via a common coupling element (7; 207) and are pivotable relative to one another about a pivot axis defined by the coupling element (7; 207), wherein the coupling element (7; 207) can be removably installed in the hinge arrangement and a securing element (9; 209, 210) which can be brought into engagement with at least one of the two pivoting elements (1, 2, 201, 202) and, in its engaged position, fixes the built-in coupling element (7, 207) in the hinge arrangement, in particular in the direction of the pivot axis ,

2. hinge assembly according to protection claim 1, wherein the securing element (9) in its engaged position spring loaded on one of the pivot elements (1, 2) engages.

3. hinge arrangement according to protection claim 2, wherein the securing element (9) is designed as a spring element which engages in its engagement position in a corresponding, in one of the pivot elements (1, 2) formed recess (17).

4. hinge arrangement according to protection claim 3, wherein at the recess (17) and / or on the spring element (9) has a

Guide bevel is formed, which unlocks the axial direction of the coupling element (7) against the installation direction, the spring element (9) so that it out of the recess (17) out.

5. hinge assembly according to protection claim 3 or 4, wherein the securing element as the coupling element (7) partially surrounding spring clip (9) is formed.

6. hinge assembly according to protection claim 5, wherein at a radial edge (12) of the recess (17) is formed a Führungsfase which radially compresses the spring clasp (9) against the installation direction during axial loading of the coupling element (7), so that they from the Recess (17), led out.

7. hinge assembly according to protection claim 1, wherein the securing element (210) in a locking portion (209) on

Coupling element (207) is designed as an eccentric blocking element (210) and at least one hinge opening with an eccentric inner contour (215, 216) is provided on each pivoting element (201, 202), so that in a defined pivoting position of the pivoting elements (201,

202) to each other, the axially aligned inner contours

(215, 216) form a mounting or removal passage through which the securing element (210) in the direction of

Pivot axis in its engaged position can be brought or removed from this.

8. hinge assembly according to protection claim 7, wherein the inner contours (216, 215) complementary to the outer contour of the locking portion (209) are formed.

9. hinge assembly according to protection claim 7 or 8, wherein the length of the locking portion (209) corresponds in the direction of the pivot axis of the length of the hinge opening in which it is arranged in its engaged position.

10. Hinge arrangement according to one of the preceding claims, wherein on the first pivoting element (1, 201) two hinge openings are formed axially one behind the other at a distance between which the position of a hinge opening on the second pivoting element (2, 202) is fixed in the direction of the pivot axis.

11. Hinge arrangement according to one of the preceding claims, wherein the pivot elements (1, 2; 201, 202) are fixable to each other in preferred pivot positions.

12. Hinge arrangement according to claim 11, wherein a spring-loaded latching mechanism (217) is provided on the first pivoting element (1; 201) which cooperates with a latching contour (218, 219) on the second pivoting element (2, 6; 202, 206).

13. Hinge arrangement according to protection claim 12, wherein the latching contour (218, 219) for a preferred pivot position, in particular a rest position and / or a working position, a corresponding training, in particular a recess (218, 219), and having a latching element (217 ) cooperates.

14. sighting arrangement for a weapon, in particular a folding grain (1, 201) comprising, comprising a hinge assembly according to one of the preceding claims.

15. sighting arrangement according to protection claim 14, wherein a first pivoting element as a folding grain (1, 201) is formed and a second pivoting element as fixed to the weapon holding piece (2, 202) is formed.

16. Visor arrangement according to. Protection claim 15, wherein the holding piece is formed as arranged in the mouth region of a barrel gas take-off piece (2; 202).

17. weapon with a sighting arrangement according to one of the claims 14 to 16.