EP0197245A1 - Actuating device for the cocking of an automatic handgun - Google Patents

Abstract

An actuating device for the through-loading device of a self-loading handgun is characterized in that an actuating element is rotatably mounted, that a device (guide curve 34, lever 40) is provided for limiting rotation in order to stop the actuating element when actuated by hand in a predetermined direction of rotation after a predetermined angle of rotation that the device has a guide curve (34) with which the two lever arms (46, 48) of a two-armed lever (40) interact, which is pivotable about an axis (76) which is guided on a circular path (74), and that the guide curve and the two-armed lever are designed such that the lever, when it comes to rest with one of its arms on a stop of the guide curve during movement in the predetermined direction of rotation, whereby further rotation in the same direction is blocked, by a backward movement , in which the other lever arm interacts with the guide curve, see o is pivoted that it can be rotated past the stop in the predetermined direction of rotation. One advantage is the simple, reliable construction.

Description

The invention relates to an actuating device for the through-loading device of a self-loading handgun.

In known weapons of this type, in particular also rifles, the loading is carried out by a linear movement of a weapon part. Starting from the ready-to-fire position, the weapon part moved for loading can only be moved in one direction.

The invention has for its object to provide a simple and reliable actuator that does not have to be moved linearly.

This object is achieved according to the invention in that the actuating element is rotatably mounted, that a device for limiting rotation is provided in order to stop the actuating element when actuated by hand in a predetermined direction of rotation after a predetermined angle of rotation, that the device has a guide curve with which the two lever arms of a two-armed lever cooperate, which can be pivoted about an axis which moves on a circular path when the actuating element is rotated, and in that the guide curve and the two-armed lever are designed such that the lever, when moving during the movement in a predetermined direction of rotation has come to rest with one of his arms on a stop of the guide curve, whereby further rotation in the same direction is blocked by a backward movement, in which the other lever arm interacts with the guide curve, is pivoted so that it passes the stop in the predetermined direction of rotation far can be turned. The two-armed lever is not mounted almost smoothly, but can only be pivoted by applying a predetermined torque. For this purpose, the lever can be a little stiff due to frictional forces, or it is held in its various positions by latching devices.

The advantage of the invention is that it is ensured that, starting from its rest position, the actuating element can only be rotated in a predetermined direction of rotation, although the actuating element is always rotated in the same direction when carrying out several loading processes in succession (from a slight reverse rotation to remove the blocking of the rotary movement) and never be turned back over larger angular ranges, neither by hand nor by a spring. Because a fixed end stop limiting the movement cannot be provided, as is the case with the through-loading devices to be actuated linearly, it is advantageous that after every predetermined rotation angle within which the loading process is completed, a stop prevents the inadvertent further rotation. If the shooter slightly rotates the actuating element after reaching this stop, he can carry out the next through-loading process by rotating in the predetermined direction. Another advantage of the invention is that a rotatable actuating element for the through-loading device can be passed particularly easily in a dustproof and moisture-proof manner through a housing surrounding the weapon mechanism. Another advantage of the invention is that a special spring, which ensures that a part which interacts with the guide curve is constantly in contact with the latter, is not required. This increases the operational safety of the weapon. The above-mentioned somewhat stiff mounting of the two-armed lever can be carried out in a simple manner, for example by engaging a somewhat resilient axle bolt in a bore. The pivoting movement of the two-armed lever only has to be inhibited by frictional forces or similar forces in such a way that the lever does not undesirably change its position during the loading process.

How the rotatable actuator is connected to the weapon mechanism is not the subject of the invention. It is entirely conceivable that a drive connection from the rotatable actuating element to the linearly displaceable through-loading mechanism of a conventional weapon is created by means of suitable transmission means.

In one embodiment of the invention it is provided that the guide curve has an inwardly jumping first section which forms a stop for the lever arm which is at the front in the predetermined direction of rotation when the predetermined angle of rotation is reached, and that an inwardly projecting second section is at a distance from the first section of the guide curve Section is provided which, when the lever moves backward relative to the guide curve, starting from a position in which the front lever arm strikes the first section, comes into contact with the rear lever arm and pivots it outward, so that the front lever arm extends so far is moved inwards that the first Ab cut is no longer effective as a stop at the predetermined direction of rotation, and that one of the two interacting elements - (guide curve or two-armed lever with its axis) of the device for limiting rotation is in drive connection with the actuating element and that the other of the two elements - (two-armed lever with its axis or guide curve) is arranged in a rotationally fixed manner. One advantage is the simple construction.

In one embodiment of the invention, it is provided that the guide curve has at least one further, inwardly projecting part, which forms a stop preventing backward movement of the two-armed lever.

This embodiment is advantageous if it is to be ensured that even if the actuating element has already covered part of its rotary movement, turning back is not possible or at most only up to the abovementioned stop.

The actuating element can be in any connection in drive connection with the part carrying the two-armed lever. In one embodiment of the invention, the path of the axis of the two-armed lever is arranged concentrically with the axis of the actuating element. This offers the advantage of a particularly space-saving construction. According to one embodiment of the invention, the two-armed lever is preferably mounted on a part which is connected in a rotationally fixed manner to the actuating element. Movable connecting parts between the actuating element and the bearing of the lever are omitted here.

The invention can be implemented particularly easily if at most approximately 360 ° is provided as the predetermined angle of rotation. Depending on a translation provided between the actuating element and the weapon mechanism, a smaller angle may be sufficient in individual cases, in particular also an angle of 180 °. It is also possible to provide stops at equal or unequal angular intervals, the sum of which amounts to 360 °, which stop the rotary movement in the predetermined direction of rotation, and, if desired, to provide one stop or a plurality of these latter stops which limit the rotary movement in the reverse direction of rotation.

• Fig. 1 einen Querschnitt durch das Gehäuse eines automatischen Gewehrs, wobei nur einige zum Verständnis der Erfindung erforderliche Teile gezeigt sind,
• Fig. 2 einen Schnitt entsprechend der Linie 11-11 in Fig. 1, wobei das Betätigungselement soeben nach Ausführung einer vollen Umdrehung durch einen Anschlag angehalten worden ist,
• Fig. 3 eine der Fig. 2 entsprechende Darstellung, wobei das Betätigungselement gegenüber Fig. 2 geringfügig im Gegenuhrzeigersinn zurückgedreht worden ist,
• Fig. 4 in einer der Fig. 2 entsprechenden Darstellung die Anordnung, in der nach Ausführung einer Drehbewegung von etwa 120° ein Zurrückdrehen des Betätigungselements verhindert ist.

Further features and advantages of the invention result from the following description of an embodiment of the invention with reference to the drawing, which shows details essential to the invention, and from the claims. The individual features can each be implemented individually or in groups in any combination in one embodiment of the invention. Show it:

• 1 shows a cross section through the housing of an automatic rifle, only a few parts necessary for understanding the invention being shown,
• 2 shows a section along the line 11-11 in Fig. 1, wherein the actuating element has just been stopped by a stop after making a full revolution,
• 3 shows a representation corresponding to FIG. 2, the actuating element having been turned back slightly counterclockwise compared to FIG. 2,
• Fig. 4 in a representation corresponding to FIG. 2 shows the arrangement in which, after a rotary movement of approximately 120 °, the actuating element is prevented from turning back.

In the figures, only the details required for the description of the rotation limitation are shown, but not details of the weapon or the through-loading device which are not necessary for their understanding.

In Fig. 1, a disc 6 is arranged in a side wall 2 of a housing 4 of an automatic rifle made of plastic, which engages with a tubular projection 8 in a recess 10 of the side wall 2. An internal toothing 12 of the disk 6 is non-rotatably engaged with an external toothing 14 of a bolt 16, which is made in one piece with an actuating element of the through-loading device, hereinafter referred to as a rotary knob 18. The bolt 16 is held in engagement with the disk 6 by a spring ring 20. Fig. 1 is drawn looking towards the rear end of the rifle. The side wall 2 is therefore actually the left side wall of the housing 4.

When the rotary knob 18 is turned, a projection 22 arranged on the inside of the disk 6 moves further parts of the weapon in order to initiate the loading process. Such a loading process is necessary to bring the first cartridge to be fired into the cartridge chamber when the still empty weapon is loaded, to unload a cartridge that is still in the cartridge chamber after removal of the magazine and to remove an unfireed cartridge from the weapon in the event of weapon malfunctions and bring another cartridge from the magazine to the cartridge chamber.

In the exemplary embodiment, it is assumed that the rotary knob 18 must be rotated through 360 ° counterclockwise (view of FIG. 1 from the right) or clockwise in the illustration of FIG. 2 in order to carry out a through-loading process. 3, the knob 18 must first be turned counterclockwise by a few degrees in order to reach the position of FIG. 3 and to pivot the lever 40 described below, starting from the position in FIG. 3, the angle of rotation is clockwise until the position in FIG. 2 is reached again by these few degrees greater than 360 °. In addition, a special lock against turning back should be provided after a rotation angle of approximately 120 ° (starting from FIG. 2). Such a lock can be expedient if, in this named position of the shooter, the shooter interrupts the rotary movement of the rotary button for some reason, for example in order to visually inspect the now visible cartridge chamber. It is intended to prevent the shooter from accidentally turning the rotary knob 18 back after this check has been carried out, instead of turning it further about 240 °, as is necessary for the loading process to be carried out correctly. In the assumption described, the lock against turning back of the rotary knob 18 may be necessary in particular if, when the rotary knob 18 is actuated, a spring, for example the return spring of a gas pressure charging device, is tensioned, which could then endeavor to turn the rotary knob back when the rotary knob is released . Finally, starting from FIG. 2, it should be impossible to spin counterclockwise.

A substantially annular groove 26 is formed on the inside of the side wall 2, which is delimited by a bottom surface 30 parallel to the outer surface 28 of the side wall 2, a cylindrical inner surface 32 which is inoperative in the exemplary embodiment and an outer surface which forms a guide curve 34.

On the side of the disc 6 facing the side wall 2, a two-armed lever 40 is arranged, which engages with a slotted axle bolt 42 in a bore 44 of the disc 6 and is thus rotatably mounted in the bore 44 with some friction, so that the lever 40 in every position stops. It has a front lever arm 46 and a rear lever arm 48 in the clockwise direction (in the view of FIG. 2) required for loading. The lever 40 is made of plastic. The terms clockwise and counterclockwise always refer to FIGS. 2 to 4 below.

The guide curve 34 has a plurality of sections 52, 53 and 54 which are concentric with respect to the axis 50 of the rotary knob 18 and the disk 6 and have the same radius, these sections forming the radially outermost parts of the guide curve 34. Starting from a point 56 at the end of the concentric section 52 on the right in FIG. 2, begins a concavely curved section 57 which extends inwards (i.e. in the direction of a smaller distance from the axis 50) and which has a kink 58 in an inward direction section 59 approaching almost radial direction of axis 50. This is adjoined in a clockwise direction by a concentric section 60, the length of which corresponds to approximately half the length of the lever 40. At the end 61 of the concentric section 60 there follows an approximately radially outward transition 62 to the concentric section 53. Between the concentric sections 53 and 54 there is a somewhat inwardly directed region 63 and an adjoining outwardly directed region 64 At the end of the concentric section 54 there follows a relatively inwardly directed, concavely curved section 65, at the end of which an outwardly directed section 66 establishes the connection with the concentric section 52.

The front lever arm 46 is somewhat tapered by two surfaces 70 and 71. The edge formed by these two surfaces 70 and 71 lies exactly at the kink 58 in FIG. 2. If a circular path 74, which describes the axis 76 of the axle pin 42, is a tangent at the location of the axle pin 42 in FIG this tnagente, for example, through the kink 58. If an attempt is made to turn the rotary knob 18 clockwise, the front end of the front lever arm 46, which is formed by the surfaces 70 and 71, cannot come out of the section 57 and 59 in the region of the kink 58 slide out formed stop. This reliably prevents rotation of the rotary knob 18 in a clockwise direction. This is the position that the rotary knob 18 assumes after making one full revolution. If a further through-loading process is to be carried out, the shooter initially moves the rotary knob 18 somewhat counterclockwise. The rear end 80 of the rear lever arm 48 arrives at the section 66 of the guide curve 34. Taking into account the direction in which the rear end 80 is at the moment the Section 66 moves, and taking into account the position of the axis 76 of the axle pin 42 to the rear end 80 forming an edge, the section 66 is inclined so that the rear end 80 slides outward on the section 66, so that the lever 40 thereby relative is pivoted clockwise to the disc 6, see FIG. 3. The front end of the front lever arm 46 reaches radially inward so far that the surface 71 no longer comes into contact with the section 59 when the rotary knob 18 now rotates clockwise comes, so that the rotary movement of the rotary knob 18 is no longer hindered thereby. As soon as the front lever arm 46 comes into the area of the groove 26 in which the concentric section 60 is followed by the concentric section 53 lying radially further outward, the contact of the rear lever arm 48 with the concentric section 60 causes the lever 40 pivoted relative to the disc 6 in the counterclockwise direction, and this pivoting, which is of no importance in the exemplary embodiment, is partially reversed by the fact that the front end of the front lever arm 46 slides along the region 63 as the rotary knob 18 rotates further. As a result, the rear end 80 of the rear lever arm 48 extends radially outward so that when the shooter tries to turn the rotary knob 18, it collides with the transition 62 of the guide curve 34 and thereby prevents a reverse rotation, as shown in FIG. 4.

As soon as the rear lever arm 48 passes the section 65 of the guide curve 34 shortly before the end of a full rotation of the rotary knob 18, the lever 40 pivots again in a counterclockwise direction relative to the disk 6, so that the front end of the front lever arm 46 comes out radially and this ensures that the surface 71 of the front lever arm 46 abuts the section 59. Before this happens, the lever 40, which for safety reasons has initially been pivoted even further radially outwards, is moved radially inwards by the section 57 until the position shown in FIG. 2 is reached.

The concentric sections 52, 53 and 54 and / or the inner surface 32 in the example ensure that the lever 40 cannot turn or can turn so far that it jams. This goal could also be achieved by another limitation of the pivoting angle of the lever 40.

Claims (7)

1. Actuating device for the through-loading device of a self-loading handgun, characterized in that an actuating element - (rotary knob 18) is rotatably mounted, that a device (guide curve 34, lever 40) is provided for rotation limitation to the actuating element when actuated by hand in a predetermined To stop the direction of rotation after a predetermined angle of rotation, that the device has a guide curve (34) with which the two lever arms (46, 48) of a two-armed lever (40) cooperate, which is pivotable about an axis - (76) which is on a circular path (74) is guided,
and that the guide curve and the two-armed lever are designed such that the lever, when it comes to rest with one of its arms on a stop of the guide curve during movement in the predetermined direction of rotation, whereby further rotation in the same direction is blocked by a Backward movement, in which the other lever arm cooperates with the guide curve, is pivoted so that it can be rotated past the stop in the predetermined direction of rotation. 2. Actuating device according to claim 1, characterized in that the guide curve - (34) has an inwardly jumping first section - (59) which forms a stop for the front lever arm in the predetermined direction of rotation (46) when the predetermined angle of rotation is reached, that at a distance from the first section (59) of the guide curve there is an inwardly projecting second section (66) which, when the lever is moved backwards - (40) relative to the guide curve (34) - starting from a position in which the front lever arm (46) strikes the first section (59) - comes into contact with the rear lever arm (48) and pivots it outward, so that the front lever arm (46) is moved so far inwards that the first section ( 59) is no longer effective as a stop in the predetermined direction of rotation,
and that one of the two interacting elements (guide curve or two-armed lever with its axis) of the device for limiting the rotation with the actuating element is in drive connection and that the other of the two elements (two-armed lever with its axis or guide curve) is arranged in a rotationally fixed manner. 3. Actuating device according to claim 2, characterized in that the guide curve - (34) has at least one further, inwardly projecting part (transition 62) which forms a stop preventing the two-armed lever - (40) from moving backward. 4. Actuating device according to one of the preceding claims, characterized in that the circular path (74) of the axis (76) of the two-armed lever (40) is arranged concentrically to the axis (50) of the actuating element. 5. The device according to claim 4, characterized in that the two-armed lever (40) is mounted on a rotationally fixed part (disc 6) connected to the actuating element. 6. Device according to one of the preceding claims, characterized in that the predetermined angle of rotation is at most about 360 °. 7. The device according to claim 6, characterized in that the predetermined angle of rotation is approximately 360

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