This disclosure relates generally to an adapter for a self-loading firearm. This disclosure relates more particularly to a self-loading firearm that is configured for mounting at least one additional device and has two adapter sections extending in the longitudinal direction of the weapon. For example, this disclosure includes a barrel-side section and a receiver-side section.
In this disclosure, position references, such as “up,” “down,” “front,” “back,” etc. always relate to a firearm held in a normal firing position, in which the bore axis extends horizontally and firing occurs forward away from the marksman.
Adapters for attaching at least one additional device, or additional apparatus, e.g. a laser sight, (night) aiming device, scope, lighting device, bipod, grenade launcher or the like, on a firearm are known in various designs, including Picatinny rails. The last of these frequently extend in a straight line over the hand guard and/or the receiver, and are secured thereon by fastening means, e.g. screws.
Alternatively, it is also known to attach an additional device, in particular a diopter sight, on an additional mounting rail attached to the firearm. Furthermore, receivers made of metal and/or plastic are known.
DE 10 2013 208 770 A1 shows an assault rifle with a U-shaped stock, which is rigidly connected to the receiver via an extended barrel nut, and a sight mount, which extends over the length of the stock and the receiver. The sight mount is connected to the stock over its entire length, such that it reinforces the rigidity thereof, and is attached to the receiver at it rear end via screws.
U.S. Pat. No. 5,343,650 B1 shows an adapter rail permanently attached to the breech-guiding receiver of an assault rifle, which is extended toward the front. A hand guard is provided on this extension, which encompasses the barrel and the gas discharge without contact thereto, and is secured via two connecting yokes at the front of the rail, as well as at the transition of the barrel into the receiver. The adapter rail has a multi-part design at its rear end, and can be retrofitted with different spacers for height adjustment.
DE 103 92 631 B4 discloses a monolithic firearm housing (there called rail platform) for the American M16 assault rifle, which is cut and drilled out of a block. The inserted barrel comprised a separate barrel extension, which attaches and clamps or pins via the firearm barrel laterally penetrating screw and clamping nuts or pins, which results in tensions.
US 2005/0241211 A1 shows a modular adapter system for attaching an additional device to an assault rifle. A Picatinny rail is provided on the upper surface of the receiver, to which a further Picatinny rail is attached, to which in turn, a two-piece hand guard is attached, encompassing the barrel. The upper part of the hand guard is attached to the second Picatinny rail, and covers the barrel in the shape of a semicircle. Receiving grooves are provided on its undersurface, distributed along the covering part of the hand guard, in which bearing profiles of a likewise semicircular lower part of the hand guard are inserted and can be secured.
US 2006/0010748 A1 shows a rail system for attaching an additional device to an assault rifle. The system includes a Picatinny rail extending over the barrel and the receiver, which is attached at its rear end to a further Picatinny rail on the receiver, extending in the longitudinal direction. A hand guard encompassing the barrel is provided on the barrel-side section of the Picatinny rail, which is attached to the Picatinny rail at its upper surface. The barrel region of the hand guard, or the rail, respectively, is attached in the region of a barrel nut that connects the barrel to the breech-guiding receiver by two lateral clamps that are snapped in place on the barrel nut via a spring-loaded locking ring. The lower part of the hand guard is connected to the upper part via hinges and latching fixtures.
U.S. Pat. No. 5,590,484 shows a continuous Picatinny rail, extending over the receiver and the barrel, for attaching an additional device. An integrated hand guard is provided on the front of the Picatinny rail. The Picatinny rail is provided for the American assault rifle M16, among others, and is attached on a barrel bushing to a barrel mount at the front of the receiver, as well as to the gas discharge. The rear part of the Picatinny rail, extending over the receiver, is neither guided laterally, nor attached. The multi-part adapter fixture is designed to adapt to thermal changes in the barrel during sustained firing, and for this reason is not secured in the region of the receiver.
U.S. Pat. No. 6,694,660 B1 shows a hand guard system for assault rifles. A permanently mounted Picatinny rail is provide on the assault rifle receiver. Furthermore, a hand guard is provided on a further Picatinny rail, which is slid onto the receiver-side Picatinny rail, and secured there via perpendicular screws. The barrel-side section encompasses the barrel with a tube-shaped hand guard, without contact thereto. In the assembled state, a cylindrical barrel retention nut with a smooth outer surface serves as a lateral bearing and guide for the hand guard section.
U.S. Pat. No. 8,230,634 B1 shows a Picatinny rail with a single-piece hand guard provided thereon. The Picatinny rail encompasses the breech-guiding receiver with a guide adapted to the contour of the upper part of the receiver, and is secured there in a form-fitting manner to the upper surface of the receiver with connecting elements, e.g. screws. A tube-shaped inner surface of the hand guard is guided by the outer contour of a barrel nut, and the inner hand guard contour is pressed against the outer contour of the barrel nut by means of a clamp and two screws.
DE 100 36 728 A1 by the applicant shows an assembly system for attaching a grenade launcher to the undersurface of a hand guard or the stock of an automatic rifle. The grenade launcher is mounted such that its rear end can move. In order to attach the grenade launcher, the automatic rifle comprises a force-absorbing fixed bearing at basically the same height as a gas intake.
DE 103 16 545 A1 by the applicant shows an adapter for attaching one or more additional devices to a firearm, in particular an automatic rifle. The adapter is secured to a sleeve encompassing the barrel of the firearm, which can be permanently or mechanically connected thereto. The adapter extends exclusively over the barrel of the firearm, and comprises an extension, extending toward the rear, which engages in a complementary recess in the receiver, in order to mount the adapter on the sleeve in a non-rotating manner.
Lastly, DE 10 2005 037 884 B3 by the applicant shows an adapter component for receiving attachments. The adapter component is provided as a hand guard, which has Picatinny rails on its lateral surfaces. The adapter component is slid onto the barrel and the gas discharge mechanism in the assembled state, and secured on the sleeve via a locking pin by means of a force-fitting clamping thereof, such that it cannot move longitudinally. A securing lug engages in a complementary recess in the receiver, and serves to orient and align the hand guard during installation, and also secures the hand guard against rotation.
The teachings of this disclosure create an alternative adapter and a firearm with such an adapter, which have a simple structural design, and ensure the functionality of the at least one additional device attached thereto.
A generic firearm disclosed herein is distinguished in that it is provided with the adapter, wherein the firearm has a retention device coupled to one of the barrel-side section or the receiver-side section to secure the adapter, and wherein a floating bearing is coupled to one of the barrel-side section or the receiver-side section to allow longitudinal displacement of the adapter with respect to the firearm.
The adapter according to this disclosure and the associated firearm ensure the functionality of the at least one additional device attached thereto, in particular a sight. When the barrel radiates heat to the receiver, e.g. during sustained firing, and the receiver expands or becomes distorted as a result, as can happen in particular with plastic receivers, or when the barrel itself becomes thermally distorted, the additional device remains—due to the special adapter bearing—substantially protected from the tensions arising thereby. If the additional device is a sight, for example, the targeting position is altered very little or not at all when the barrel becomes hot. The floating bearing allowing for longitudinal movement compensates for any axial displacements in relation to the fixed bearing.
The adapter is fixed (secured) longitudinally to the retention device on the barrel, in particular in the proximity of the barrel nut. The part of the barrel vibrating least while shooting is located in the region of the barrel nut. The barrel-side adapter section then encompasses the barrel without contact thereto.
As a result of the longitudinal displacement capacity, a stable mounting of an additional device mounted on the adapter is ensured, in particular a scope, targeting aid, or sight, independently of potential movements of the breech-guiding receiver.
The adapter can have multiple components. The barrel-side section and the receiver-side section are unitary (e.g., an integral design), and the barrel-side section can be secured to the firearm barrel, and wherein the receiver-side section can be supported on the firearm receiver to allow longitudinal displacement. The integral design is easy to obtain in terms of production technology, and eliminates additional components and attachment elements. Because the floating bearing for the adapter is mounted on the receiver such that it is secured laterally, but can move longitudinally, an alignment is ensured that remains unaffected by different heat expansion coefficients of the receiver (and/or the barrel) and the scope mount, or the adapter. On the whole, a good shooting precision, even in sustained firing, and when the barrel has become hot, can be ensured by the moving guidance of the floating bearing on the receiver.
The barrel-side section can be designed as a rail. The barrel-side section at least partially encompasses the firearm barrel as a hang guard, and the receiver-side section at least partially covers an upper surface of the receiver.
This measure eliminates the need for an additional hand guard. “Encompass,” as set forth in this disclosure, means that the receiver-side section thereof is designed at least in part with sections that are complementary to the surface of the receiver, such that it can simply be slid onto the receiver during assembly, and is securely supported on the receiver. The receiver thus forms an additional guidance during assembly, and increases the stability.
After assembly of the adapter of the firearm, the barrel-side section extends along the barrel from proximity of a gas discharge to the receiver and encompasses the firearm barrel without contacting the firearm barrel. This measure ensures, among other things, that the hand guard remains unaffected by vibrations, in particular in the front region of the barrel, because it is spaced apart therefrom.
The receiver-side section comprises one or more grooves on at least one of an upper surface or a lateral surface of the receiver-side section, and wherein a Picatinny rail at least partially forms an under surface of the barrel-side section.
The formation of only a few grooves is simple and inexpensive. The respective attachment grooves can thus be easily aligned with the additional device that is to be attached. The remaining lateral surface can be smooth.
A Picatinny rail at least partially forms at least one of an upper surface or a lateral surface of the receiver-side section, and wherein a Picatinny rail at least partially forms an under surface of the barrel-side section. This measure increases the flexibility when attaching different additional devices, because these can be variably mounted in different positions on the respective Picatinny rails. Additional lateral Picatinny rails further increase the flexibility, because additional devices can also be mounted on the respective adapter, surrounding it in the manner of a crown, if necessary.
The adapter can be designed as a straight, horizontal rail. The barrel-side section transitions into the receiver-side section via at least one lateral bridge section, and wherein the at least one lateral bridge section is a stepped section. Such a bridge construction of the adapter, in particular a symmetrical construction, ensures a stable bearing of the scope or sight mounted on the adapter. A stepped design, increasing toward the receiver, conforms in particular to weapon-specific designs for an assault rifle, e.g. rifle G36 by the applicant.
The barrel-side section and the receiver-side section comprise one or more holes (e.g., passages) on a first lateral surface and a second lateral surface opposite the first lateral surface, and wherein the one or more holes are for inserting attachment means. The passages can be recesses, cut-outs, and/or bores. The attachment means are inserted therein in the known manner. Spring-loaded bolts, pins or screws, or other suitable attachment means can be provided for this. If screws or threaded pins are used, these can engage in the known manner in a counter-thread provided opposite.
The barrel-side section and the receiver side section comprise one or more lateral holes, which may be rectangular or oval, for example. They can also be designed as so-called “keyholes.” This allows for a ventilation of the barrel, and in particular a heat dissipation outward from the barrel after firing. An additional device or targeting aid can also be attached thereto.
At least one of the barrel-side section or the receiver-side section comprises one or more projecting extensions (e.g., guide elements) on a rear surface to guide, center and secure the adapter on the firearm. The guide element can be designed in particular as a projecting extension, lug, pin, or suchlike.
The projecting extension of the receiver-side section comprises a dovetail profile. The dovetail profile servers to optimize the floating bearing. In particular when the dovetail profile is provided on the receiver-side section of the adapter, which encompasses the receiver, this dovetail profile ensures that the adapter is laterally fixed but can move longitudinally in relation to the receiver. The dovetail profile is the sole contact surface between the adapter and the breech-guiding receiver, and is preferably provided for reducing elastic movements on the receiver to as little or small as possible.
The receiver-side section comprises one or more longitudinal recesses on a first lateral surface and a second lateral surface to actuate a reloading lever. The receiver-side adapter section preferably encompasses the breech-guiding receiver such that symmetrical recesses for actuating a loading lever of the fire arm are provided in both sides of the receiver-side section of the adapter. With this measure, the adapter can encompass the receiver to a large extent, thus increasing the stability of the adapter and simplifying its installation, while also ensuring the functionality of the loading lever and the operability of all of the essential elements.
The receiver-side section comprises one or more recesses to support at least one adjustable sight, and wherein the at least one adjustable sight is at least one of a flip-up rear sight assembly or a flip-up peep sight. Such a recess is preferably provided in particular at the front or rear end of either a Picatinny rail or a rail without grooves, in order to provide a sufficiently long sighting line. Recesses can also be easily milled in terms of production technologies. Furthermore, such a flip-up sight can be folded down when attaching an additional device, such that the installation thereof is not impaired.
The adapter can fully cover the barrel in the region of the hand guard, and can have a closed integral design.
The barrel-side section comprises a cover pivotable between an open position and a closed position about a hinge axis. This measure allows for easy access for removing, inspecting, or cleaning a gas piston and a piston rod of a gas-operated reloading mechanism. The cover can be pivotally supported via a hinge pin through appropriate holes on the lower part of the barrel-side section.
The adapter comprises an insert coupled to the at least one lateral bridge section to stabilize and reinforce the adapter.
The applicant reserves the right to apply for independent protection for this insert.
The stability of the adapter can be increased with this measure. The insert component can also extend thereby beyond the bridge sections. In order, however, to keep the weight of the adapter within limits, the insert component is preferably provided in the region of the bridge sections. In a simple embodiment, the insert component can be configured as a block.
The insert comprises an elastic element, wherein the elastic element comprises a latching lug to secure the cover to the insert. When installing the insert between the bridge sections, the cover can be oriented such that it is closed toward the receiver-side section, and is thus simply pressed by the user via the latching lug, such that it is held away from the elastic element in its snapped-in position. When opening the cover, it can be easily opened upward with a light counter-pressure applied to the latching lug.
The elastic element is provided integrally with the insert, wherein the elastic element is one of a molded spring or a separate component. Alternatively, it can also be a separate component, which is installed in a manner corresponding to its use. An integral design is easy and inexpensive to produce. The insert component can be molded from plastic, wherein the integrated spring made of plastic can also be produced thereby. On the whole, the shape and selection of material can be suited arbitrarily to the insert and its spring.
The insert comprises at least one of a longitudinal gas piston rod guide or a bearing to support a gas piston rod spring. The insert can be secured in the region of the bridge sections. It can have holes for this, in particular aligned with the holes in the adapter, and can be secured there via transverse pins or bolts, or even screws, in some cases, or other appropriate attachment means.
A rear surface of the insert comprises at least one guide element to guide and center the insert on a receiver during assembly. This measure provides for a simple assembly, and ensures a precise positioning of the adapter and the gas piston guide potentially provided therein. The guide element can be a guide lug, for example, or another extension, and extends toward the receiver when the adapter is slid on and snapped in place, and engages in a recess on the front of the receiver when installed. If there is a gas piston, the guide lugs, or the guide element, ensure that the gas piston guide is extended in the receiver.
The retention device is one of a sleeve or an integral sleeve-like extension section of a barrel nut, wherein the sleeve is securable to the barrel-side section in a region of the barrel nut. A sleeve can be permanently secured to the barrel thereby, in particular at its rear region in the proximity of the barrel nut. A transverse groove, for example, can be provided for this on the barrel, such that the barrel sleeve can be secured via a tangential pin or bolt on the barrel.
The sleeve can have transverse grooves on its upper surface for attaching the fixed bearing of the adapter. Alternatively, the retention device can also be provided as an extended barrel nut, which is extended over a sleeve-like section. Circumferential annular grooves could then be provided in the sleeve section, which provide for a form-fitting securing of the adapter in the longitudinal direction via transverse screws, and a force-fitting securing in the lateral direction.
The receiver-side section comprises at least one counter-profile to receive at least one of the guide or an insertion element of the adapter. A complementary counter-profile facilitates the orientation and alignment of the respective guide element and thus the adapter or insert component.
The at least one counter-profile is complementary to a dovetail profile of an extension, wherein the extension comprises a bearing to allow longitudinal movement of the extension with respect to the firearm.
A dovetail profile enables a connection with only a small connecting surface. In order to further reduce the contact points in the dovetail guide, the counter-profile can also be provided as a separate component, attached to the receiver in a suitable manner. The counter-profile can be made of plastic or metal, or a plastic/metal composite. The counter-profile may be spherical, in order to reduce the contact points, which can further reduce receiver effects.
The counter-profile in which the dovetail profile of the adapter engages can be wedge-shaped or slotted, such that a nearly linear guidance further reduces the contact surface.
The construction of the adapter 3 according to this disclosure shall first be explained on the basis of
The adapter 3 is provided on the self-loading firearm 1 for attaching at least one additional device, e.g. a diopter sight, laser range finder, lighting device, bipod, etc. The adapter 3 comprises a barrel-side section 25 and a receiver-side section 35.
The barrel-side section 25 of the adapter 3 encompasses the barrel 19. This barrel-side section 25 comprises a Picatinny rail 27, 29 on both its upper surface and its lower surface, and longitudinal holes 31 and “keyholes” 32 on both sides, which serve to dissipate heat and cool the barrel, or for attaching targeting aids.
The barrel-side section 25 of the adapter 3 transitions in a stepped manner, via a bridge section 33 at its upper, rear end, into the receiver-side section 35. The receiver-side section 35 extends longitudinally and has a Picatinny rail 39 on its upper surface. Alternatively, this rail section can also have no, or only a few, grooves 38 and webs. A flip-up peep sight assembly 41 is provided on the front end of the Picatinny rail 39, above the bridge section 33, which can be pivoted up to a perpendicular position, or down, toward the front, via a spring-locking mechanism (not shown), as desired.
There are two holes 51 in the region of the bridge section 33 for the insertion of attachment means, i.e. screws, bolts, or pins 161, for securing the adapter 3 to a retention device on the barrel 19. Below the Picatinny rail 39, at approximately the height of the reloading lever 17, recesses 37 extend longitudinally on both sides, which enable an actuation of the reloading lever 17.
An optical sight 45 (e.g., a diopter sight) is secured to the Picatinny rail 39 via bolts or tangential pins 47 at the rear end of the receiver-side section 35 of the adapter 3, wherein, alternatively, tension bolts or other suitable attachment means may be provided. A bearing insert 43 for a further sight, such as a flip-up sight, is provided below the optical sight 45.
A recess 40 (e.g., a hole) is provided in the Picatinny rail 39 at the front end of the receiver-side section 35, for receiving a bearing (cf.
There are two holes 51 for tangential pins or attachment bolts or tension pins 161 or other suitable attachment means for attaching the adapter 3 to a barrel-side retention device, such as a sleeve 79, or a sleeve section 89, on the front, lower side of the barrel-side section 25 in the region of the bridge section 33 (cf.
A parallel extension 54 is provided at the rear end of the barrel-side section 25 of the adapter 3, which centers the adapter 3 when it is mounted on the receiver 4 (cf.
The barrel 19 in
The sleeve 79 (
Before placing the adapter 3 on the barrel 19 and the receiver 4, the barrel 19 and the receiver 4 are first connected to one another. A barrel receiver 99 is provided for this on the receiver 4 (cf.
An orientation recess 103 is provided above the barrel receiver 99, which extends transverse to the barrel 19, for receiving extensions on the adapter, or its insert component 123 (guide lugs 143, cf.
A longitudinal recess 101 is provided on the upper surface of the receiver section 4a, into which the breechblock carrier is inserted. A base 96 with a dovetail profile is provided on the rear upper surface of the receiver section 4a, adjacent to the recess 101. A production depression 98 adjoins this, which is ultimately bordered by a dovetail-shaped counter-profile guide 97. When mounting the adapter 3 on the self-loading firearm 1, the receiver-side section 35 of the adapter 3 is first slid with a dovetail profile 109 on its rear end (cf.
Lateral hinge eyelets 93 are formed at the rear end of the receiver section 4a, to which the shoulder rest 5 can be secured, or folded in laterally. An eyelet is provided on the opposite side of the receiver section 4a (cf.
Longitudinal webs 117 extend from the lower end of the cover on both sides, which bear on counter-webs 165 (cf.
The bearing insert 121 is inserted at the rear end of the receiver-side section 35 of the adapter 3 in
In the assembled state, the insert component 123 can be mounted at the front upper end of the barrel-side section 25 of the adapter 3 by means of transverse pins or transverse bolts, which can be spring-loaded, for example, for a simple assembly and dismantling. The front spring-loaded traverse bolt 149 (cf.
The insert is arched at the rear end of the longitudinal web 137, with a stepped surface extending to the back, in a basically rectangular longitudinal section 141. A longitudinal gas piston rod guide 169 for guiding the gas piston rod 159 is provided in approximately the middle of this rectangular longitudinal section 141 (cf.
Recesses 145 (e.g., semi-circular transverse grooves) are provided on the undersurface of the insert component 123 in the form of semi-circular transverse grooves extending transverse to the insert component 123. When the adapter is secured to the sleeve 79 or the sleeve extension 89 on the barrel nut 87 (cf.
The floating bearing counter-profile 177 also comprises a counter-profile for a complementary engagement in the dovetail profile 109. The contact surfaces of the floating bearing counter-profile 177 are spherical, in order to keep the contact surfaces, and thus also the mechanical torques, as low as possible. In the embodiment according to
A generic adapter disclosed herein thus has the additional following features: one of the barrel-side section and the receiver-side section is securable to a retention device on a firearm barrel or a firearm receiver, and wherein the other of the barrel-side section and the receiver-side section can be moveably supported on the firearm receiver or the firearm barrel by a guide (e.g., a floating bearing) that allows for longitudinal movement of the receiver-side section or the barrel-side section with respect to the firearm.
This patent arises from an application that is a continuation of International Patent Application PCT/EP2016/001780, which was filed on Oct. 26, 2016, which claims priority to German Patent Application Serial Number DE 10 2015 013 803.0, which was filed on Oct. 26, 2015. DE Patent Application Serial Number 10 2015 013 803.0 and International Patent Application PCT/EP2016/001780 are incorporated by reference herein in their entirety.
Number | Date | Country | Kind |
---|---|---|---|
10 2015 013 803.0 | Oct 2015 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
5343650 | Swan | Sep 1994 | A |
5590484 | Mooney et al. | Jan 1997 | A |
6694660 | Davies | Feb 2004 | B1 |
6829858 | Gablowski | Dec 2004 | B2 |
7905041 | Davies | Mar 2011 | B1 |
8230634 | Davies et al. | Jul 2012 | B1 |
9217615 | Lewis et al. | Dec 2015 | B2 |
20050241211 | Swan | Nov 2005 | A1 |
20060010748 | Stoner et al. | Jan 2006 | A1 |
20100037505 | Romer | Feb 2010 | A1 |
20110100203 | Genes et al. | May 2011 | A1 |
20150198409 | DeSomma | Jul 2015 | A1 |
20160003460 | Li et al. | Jan 2016 | A1 |
Number | Date | Country |
---|---|---|
19709789 | Dec 1998 | DE |
10036728 | Feb 2002 | DE |
10316545 | Oct 2004 | DE |
10 2005 015 391 | Oct 2006 | DE |
102005037884 | Jan 2007 | DE |
10392631 | Nov 2012 | DE |
10 2013 208 770 | Nov 2014 | DE |
9707375 | Feb 1997 | WO |
2006103062 | Oct 2006 | WO |
2014127505 | Aug 2014 | WO |
Entry |
---|
International Searching Authority, “Written Opinion”, issued in connection with PCT Patent Application No. PCT/EP2016/001780, dated Jan. 20, 2017, with English Translation, 5 pages. |
International Searching Authority, “International Search Report and Written Opinion”, issued in connection with PCT Patent Application No. PCT/EP2016/001780, dated Jan. 20, 2017, with English Translation, 6 pages. |
German Patent Office, “Office Action”, issued in connection with German Patent Application No. 10 2015 013 803.0, dated Sep. 7, 2016, with English Translation, 16 pages. |
Number | Date | Country | |
---|---|---|---|
20180266789 A1 | Sep 2018 | US |
Number | Date | Country | |
---|---|---|---|
Parent | PCT/EP2016/001780 | Oct 2016 | US |
Child | 15958779 | US |