The invention relates to a grip for a handgun, in particular a pistol.
A grip of this type is known from EP 0 979 986 A2. There, a single multi-function part made of metal is inserted in a removable way in a housing made of plastic. However, the multi-function part serves here only for guidance and support of the elements of the trigger mechanism and contains the guides for the barrel slide, which is slidable on the grip. The magazine shaft is formed in a plastic housing designed as a single-piece. For this known weapon, adapting the grip to differing specifications of the weapon is not possible straight away, since the plastic housing is of integral design, and in the event of potential changes or adaptations must always be replaced in its entirety.
The objective of the invention is to create a grip that enables a simple and cost-effective adaptation to the widest variety of demands of the marksman.
This problem is solved by means of a grip having the features of Claim 1.
The grip according to the invention has a modular construction and is composed of a grip module, preferably manufactured of plastic, a metallic carrier element insertable into said grip module and having a magazine shaft projecting downward out from the grip module, and a grip shell module slipped onto the magazine shaft. The carrier element, preferably executed as a sheet metal construction, forms a universally applicable basic part, in which or on which are arranged the parts of the handgun essential to function, such as the trigger mechanism or the guides for a barrel slide or action. Interchangeable grip shell modules and even interchangeable grip modules for length adaptation and accessory accommodation can be mounted to the universally applicable carrier element. The magazine shaft formed on the carrier element serves not only to receive a magazine, but at the same time also to form a stable carrier for a grip shell module that can be replaced or exchanged easily according to need. The grip shell module and the grip module forming an upper shell are simple and cost-effective to manufacture and can also be exchanged quickly and with no problem without changing the parts of the weapon essential to function. The grip according to the invention enables a limited grip circumference with the highest possible strength and stability, as well as an optimum adaptability with cost-effective construction.
Expedient configurations and advantageous improvements of the invention are given in the subclaims.
A grip shell module is thus designed, e.g., in such a way that it also encloses the rear side and the front side of the magazine shaft. It is expedient to design the grip shell module as a hollow body slipped onto the magazine shaft from below.
In a particularly advantageous design, the carrier element is manufactured as a sheet metal construction of two side parts connected to one another by means of connecting webs. The side parts of the carrier element feature two parallel sections extending downward, which project downward from the grip module and together with the front and rear connecting webs delimit the magazine shaft formed integrally with the carrier element. The magazine shaft is preferably dimensioned to be able to receive the entire or nearly the entire length of a magazine.
In an expedient configuration, the guides for a barrel slide or action that is slidable on the carrier element can also be mounted to the carrier element that receives the control elements and functional element of the handgun.
Additional features and advantages of the invention arise from the following description of a preferred embodiment with the aid of the drawing. Shown are:
The grip of a pistol depicted diagrammatically in
The grip module (1), preferably manufactured as an injection-molded part of plastic, comprises simply an upper retainer part (5) in the form of a frame, on the underside of which is molded a trigger guard (6) and a front cover (7) in the shape of a half shell for the upper part of the magazine shaft (4). The action or slide of the handgun, not represented here, is slidably arranged on the retainer part (5). Various openings or recesses or hollows for different control elements or functional elements are provided in the two sidewalls (8, 9) of the upper retainer part (5). Thus a lateral recess (10) for a slide release is arranged, e.g. in the left sidewall (8) viewed in the firing direction. Moreover, located in the area of the recess (10) in the sidewall (8) is a slot (11) open at the top for a bearing pin of a slide release which is known and therefore not shown. Provided in the right sidewall (9), viewed in the firing direction, opposite the slot (11) is a mounting hole (12) for the bearing pin of the slide release. Arranged to the rear of the grip module (1) are through openings (13) in the sidewalls (8, 9) for a hammer spindle. In addition, two oblong holes (14), positioned aligned with one another in front of the two openings (13) in the sidewalls (8, 9) are provided for the actuating cams of two control elements pivotably mounted on the hammer spindle. Also provided in the front cover (7) are through-holes (15) aligned with one another for a magazine holder. The rear wall ( 16) of the grip module (1) features a recess (17) for a hammer.
As emerges from
The grip shell module (3) is slipped on from below onto the magazine shaft (4) extending downward from the carrier element (2). The front side of the grip shell module, likewise manufactured of plastic in the preferred embodiments is also closed, such that the grip shell module (3) encloses not only the side surfaces but also the front and rear sides of the magazine shaft. The front side of the grip shell module (3) features simply a recess (32) for the cover (7) molded as part of the carrier element (1). As is evident from
It is recognizable in
Number | Date | Country | Kind |
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06 012 945.9 | Jun 2006 | EP | regional |