The invention relates to pistols comprised of a grip, a barrel slide displaceable thereon in the direction of fire, and a barrel lockable with the barrel slide, first locking means being provided on the barrel, second locking means being provided in the barrel slide, and unlocking means being provided in the grip. More precisely, these are also termed self-loading pistols because after each shot a new round is automatically loaded, irrespective of whether these are individual shots or a sustained fire, and irrespective of the type of firing mechanism used.
From DE 43 41 131 A1, e.g., such a pistol of very common construction is known. Therein, the barrel has elevations on its upper side which, in the locked state, fit into correspondingly shaped portions in the barrel slide. On its lower side, the barrel has a lug with a detent into which a barrel catch provided with a control profile engages. The cooperation of detent and control profile pulls the rear part of the barrel downwards, thereby unlocking it. Producing the detent and control profile with the precision required is only possible with difficulties and at high costs. They require construction space below the barrel, whereby the barrel lies substantially above the hand of the person firing, resulting in an increased tilting moment at firing. Yet, particularly the reaction forces of the eccentric force action and from the tilting movement of the barrel are annoying, they render handling more difficult and negatively affect the accuracy of fire.
The invention aims at counteracting these disadvantages. A pistol of the defined type is to be provided, the locking of which is simple, inexpensive and space-saving and which has a convenient, straight-line recoil behavior.
According to the invention, this is achieved in that the first locking means is a projection provided on the outer contour of the barrel and having a forward-facing first inclined surface, in that the second locking means is a lever pivotably guided in the barrel slide and including a dog having a rearward-facing, second inclined surface cooperating with the first inclined surface, and in that the unlocking means is a stop provided in the grip and cooperating with a lug of the barrel. There, the angle of inclination of a normal line on the inclined surfaces relative to the firing direction and the position of the pivot point of the lever are chosen such that when the barrel impacts against the stop and the barrel slide continues its movement, the inclined surfaces are capable of sliding off each other, and the lever is pivoted against the force of a spring such that the dog releases the projection on the outer contour of the barrel and, thus, the barrel slide for the continued rearward movement.
In this way, at first it is achieved that the barrel will move only in the firing direction, without any vertical component, whereby the above-mentioned reaction forces and moments will not occur. The projection on the barrel and the lever can be produced with little expenditures, merely the two inclined surfaces are demanding in terms of precision and quality of machining. The lever does not require a forced guide, it is only pressed on by a spring, without any additional control faces or detents, and by the kinetic energy of the returning barrel slide it is rapidly thrown into the opened, unlocked position. The lever can be pivotable about a fixed axis or guided in any other way. In any case, the space required by the lever transversely to the firing direction is small, which is beneficial to the outer dimensions of the pistol.
More precisely, the angle of inclination of the inclined surfaces relative to the direction of movement of the barrel is intended to be larger than the angle of friction at a friction occurring between the two inclined surfaces. Here, the friction factor μ is equal to the tangent of the angle of friction.
Preferably, the lever is a two-armed lever having its axis of rotation located behind the inclined surface, whose forward-directed arm carries the dog and whose rearward-directed arm presses a spring towards the outside; the spring is a leaf spring; and the projection is arranged on the outer contour of the barrel on the rear end thereof. This results in a compact construction and short paths of power flux.
In a further development of the invention, in addition to the stop forming the unlocking means, a further stop is provided in the grip, which further stop also cooperates with the lug of the barrel, the clear distance in the longitudinal direction between the stop and the further stop being larger than the length of the lug by a certain amount. In a most simple manner, this amount determines the distance of the return movement of the barrel until it is unlocked, which thanks to the nature of the invention, can be a very short one. If this further stop is designed to be retractable, it will serve as a dismantling lock, and after its opening, the barrel can be pulled out.
In the preferred embodiment of the inventive pistol, the barrel has two lateral projections, a pivotably guided lever is provided on either side, and the unlocking means are arranged below the barrel. By the symmetrical lateral arrangement of the levers, also the locking forces act symmetrically on the barrel, and the vertical distance of the barrel axis from the hand of the person firing is minimized. Since the levers are flat elements, the width of the pistol is not increased thereby. A particularly narrow construction is achieved if the levers are located in lateral through-holes of the barrel slide.
In the following, the invention will be described and explained by way of illustrations. Therein,
In
In
In the side wall 8 of the barrel slide 2, a lever 20 is accommodated, and in the exemplary embodiment illustrated, an equal lever 20′ is provided in the other side wall 7. These levers are arranged in through-holes in the side walls 7, 8 of approximately the same contour for reducing the width of the barrel slide. The levers 20, 20′ are two-armed levers having their pivot axis 21 vertically arranged in eyes 26 of the barrel slide. The front arm 22 (and 22′) forms an inwardly directed dog 24 at its end. The rear arm 23 is pressed outwards at its end by a leaf spring 25 (and the dog 24, thus, is pressed inwards), the other end of said leaf spring being held on an inner projection 27 of the barrel slide 2. The eyes 26 and projections 27 here also serve to hold the breech part 10.
On its end facing the breech block 11, the barrel 3 has a chamber 28 for rounds and, externally, it has lateral projections 29, 29′. During locking of the barrel slide 2 and the barrel 3, these projections 29 cooperate with the dogs 24 in a manner yet to be described. For locking, a single lever would suffice in the exemplary embodiment illustrated, however, two levers are provided, a respective one being symmetrically arranged on either side. The further member required for locking and unlocking, respectively, is a lug 32 on the lower side and close to the rear end of the barrel 3, which lug 32 cooperates with a stop 33 fixed on the housing. The stop projects upwards from a bridge 37 arranged in the grip 1, in which bridge a further stop 34 is vertically displaceably guided at a more forwardly located site.
The stop 34 can be pulled back by means of a (non-illustrated) dismantling lever so as to be able to pull off the barrel and to subsequently enable disassembling of the pistol. It is visible that the length of the lug 32 is less than the distance between the stop 33 and the further stop 34. The difference 35 is the path which the barrel 3 passes with the barrel slide 2 towards the rear side until, when having reached the stop 33, the connection between barrel slide 2 and barrel 3 is unlocked. Finally, an ejector claw 36 may be provided in the top wall 9 of the barrel slide 2.
The two inclined surfaces have the following effect: If the barrel which, on account of the recoil action, has been thrown back opposite to the firing direction, is suddenly stopped by its lug 32 on the stop 33, the barrel slide 2 which, so far has been thrown back together with the barrel 3, will tend to continue its movement, due to its inert mass. Since the lever 20 is connected to the barrel slide 2 in the center 21 of rotation, a force 52 acts on the same which will be split up into a normal component and a tangential component on the inclined surfaces 40, 41, according to the angle 41. If the tangential component of this force is higher than the frictional force between the two inclined surfaces, the dog 24 is very rapidly pivoted outwards against the force of the spring 25, until it releases the projection 29. Now the barrel slide 2 can move further backwards. If the barrel slide 2 is pulled forwards again by the force of the closing spring 16, the catch faces 44, 46 will get into contact. With this, the dog 24 is lifted beyond the projection 29 and, on account of the spring, snaps in again in front of the projection 29 in the position illustrated in
Number | Date | Country | Kind |
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A 358/2004 | Mar 2004 | AT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2005/000495 | 2/28/2005 | WO | 00 | 6/28/2007 |
Publishing Document | Publishing Date | Country | Kind |
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WO2005/093361 | 10/6/2005 | WO | A |
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