NO122905B - - Google Patents

Description

Repetitive bolt gun.

The invention relates to a repeating bolt gun, consisting of a gun body which is arranged to cooperate with a chamber piece, which is provided with a plurality of chambers, arranged along one and the same circular arc, of a barrel for guiding projectiles, of a firing pin which is displaceably arranged in the gun body and is under the influence of a spring, as well as a trigger for firing the gun.

The bolt gun according to the invention is characterized in that the barrel and a cuff arranged around it are displaceably arranged in relation to the gun body, where said barrel with cuff under the action of a spring is displaced forward in relation to the gun, and that the barrel and the cuff are rigidly connected with a displaceable rod, which is arranged in a groove in the body, and that a cock is hingedly arranged at the rear end of said rod and is pressed inwards by an elastic member, which cooperates with the firing pin and with the trigger for firing. Further features of the invention will be described below with reference to the drawings.

An embodiment of the device is shown in the drawings, where fig. 1 shows a section through a bolt gun according to the invention. In the example shown, the gun is unloaded, and its shield at the muzzle of the barrel rests against a wall, into which bolts, rivets or pins are to be driven, and its chamber piece is in an intermediate position. With straight lines, the steering is shown behind the shaft of the chamber piece, when the chamber piece is to be pulled back and moved into position. Fig. 2 shows the gun seen from the end, and fig. 3 part of the gun seen from below following arrows 3-3 in fig. 1. Fig. 4 shows on a larger scale a partial section of the chamber piece along the line 4—4 in fig. 3. Fig. 5 is an axial section of the gun's movable chamber. Fig. 6 and 7 show the part in fig. 5 sets from the ends. Fig. 8 is a longitudinal section through the entire pistol, with pressure being exerted against the piston and the breech, for charging the pistol and for introducing a cartridge and a projectile from the chamber piece into the barrel (in the case of a fully automatic pistol). Fig. 9 is an axial section along the line 9-9 in fig. 8. Fig. 10 is a section through the entire gun, similar to that in fig. 8, after launching and attaching the projectiles.

In the embodiment shown in the drawings, a body 1 forms the rear part, with a piston 1'. The body 1 is also designed in its upper part as a hoop 12 and is further provided with a substantially rectangular opening 13, which is partially occupied in the hoop 12.

A chamber piece 2, e.g. of circular shape, (however not limited to having this shape), can be introduced into the opening The chamber piece 2 is rotatably arranged in relation to the body 1, on a pin or shaft 3, which is displaceably guided in a bore l<4>, in which axis 3 intervenes. A cam 3' on the shaft 3 is guided in a groove 1B, through which the bore 1<1> is open for part of its length. A spring-actuated button 4 with, for example, a conical end fixes the shaft in two positions, a position for inserting the chamber piece 2 into the body 1 (fig. 1, 8, 10) and a position in which the chamber piece 2 is released, i.e. that in this position it is possible to extract and introduce the chamber piece 2 into the body 1 (the latter position for the shaft 3 is shown in Fig. 1 with dotted lines). The ends of the shaft 3 are conical, for interaction with the button 4, in and for fixing the shaft 3 in these two mentioned positions. The rear part of the chamber piece 2 and the chambers arranged in it for receiving cartridges are covered and protected by circular discs 1" (fig. 2), which form part of the body 1.

The chamber piece 2 is on the same circular arc and at regular intervals provided with chambers 2' for recording the cartridges and projectiles.

These chambers all have such a shape and are dimensioned in such a way that they are adapted to the commonly used calibers and types of cartridges and projectiles. The front end of the chambers 2' is provided with a cylindrical extension 2<2>, arranged to center and set the end of a projecting part 5' on the rear end of the barrel 5.

The body 1 is provided at the front with a cylindrical projection l<7> in whose smooth bore the pipe 5 is guided. A spring 6 is inserted under pressure between a flange in the smooth bore of the body and a flange on the pipe 5, and this spring 6 exerts a constant pressure on the pipe 5, in the forward direction, to displace the pipe 5 in the direction away from the chamber piece 2. The pipe 5 forward displacement is limited by a stop screw 7, which is screwed into the projecting part 1<7> and whose lower end abuts the flange of the pipe 5.

A cuff 8 is displaceably arranged around the cylindrical part 1<7>. The front end of the cuff 8 is designed as a shock-absorbing shield 8'. A spring 9 which is inserted under pressure into the sleeve 8 between a flange on this and the end of the part 1<7>, exerts a constant pressure for forward displacement of the sleeve 8. The head of the screw 7 forms a stop, which limits said displacement forward.

The cuff 8 is provided with a groove 8<2>, in which the head of the screw 7 engages, so that a displacement of the cuff is made possible.

The pipe 5 also has holes 5<2> for evacuation of the propellant gas, and for the same use there is a hole 8a in the cuff 8.

The pipe 5 is fixedly connected by means of a screw 10 to a displaceable rod 11, which is slidably arranged in a groove 18, which is taken up in the lower part of the body 1. The cuff 8 is also provided with a groove 5', which enables the cuff to be displaced in relation to the screw's 10 head. In a groove at the rear end of the rod 11, a tap 12 is guided, as if an axle could be pivoted by a spring 13.

The end of the tap 12 can be introduced to

grip with the flange 14' on an ignition pin 14, which with the rear shaft 14<2> is displaceable through the flange 14' and in its groove occupied in the body 1, which is provided with a rear plug 15. A spring 16 which is clamped between the flange 14' and the plug 15, seeks to move the firing pin forward to the firing position, towards one of the chambers 2' in the chamber piece. Swinging of the tap 12 can be done manually with an imprinter 17, which is pivotably arranged in the body 1 in front of the piston 1'. A tip 17' on the depressor 17 thus affects a projection 12' on the tap 12. A spring 18 normally holds the depressor in the forward position.

The rotation of the chamber piece after each shot can be performed in two different ways: 1. Automatic. The chamber piece 2 is then provided with grooves at its periphery (fig.

3 and 4) whose ends 2<:!> mark the position

for each of the chambers in the barrel's 5 axis, i.e. in the firing position.

These position markings 2'J are interconnected by means of V-shaped grooves (2<4> and 2<5> in fig. 3). The end of a finger 19 engages with the peripheral grooves in the chamber piece.

The finger 19 is displaced in the grooves by means of a spring 20 and, moreover, this finger can be displaced to some extent in the axial direction. As the finger 19 is displaced together with the tongue 11, the finger 19 grips with two displacements in different directions of the tongue, first in one and then in the other of the two inclined grooves 2<4> resp. 2°, when the chamber piece is moved by means of a rotary movement from a position marking 2<*> to the following one, i.e. when a chamber 2' is moved to the firing position, after a previous one.

The grooves 2<4> and 2S end at different levels and are provided with grooves to force the finger 19 to follow it. A groove P in the body 1 enables displacement of the finger 19. 2. Manually. The rotational movement of the chamber piece 2 is then carried out manually after each shot, and in that case push-up rods 21 are arranged, e.g. on the disc 1", which rods 21 cooperate with holes or hooks in the chamber piece 2, to fix carefully the position of each chamber in relation to the axis of the barrel 5. The working method of the gun is shown in figures 1, 8 and 10. From these it is clear, besides the mounting of the chamber piece, the importance of the special connection between the tap 12 and the barrel 5. This important characteristic of the present invention consists in the fact that the gun can never be fired with anything other than the trigger. Thus, according to Fig. 1, the end of the barrel 5 and the shield 8' brought into contact with the surface into which the fasteners are to be driven. The gun cannot be fired, as the firing pin is at the rear end of its travel path. The chamber piece is in an intermediate position, as the finger 19 has only moved it in a rotary motion along the oblique track 24.

In fig. 8, pressure has been applied to the arrow

F direction towards the piston and the body 1, which has caused a relative displacement in relation to the body of the cuff 8 and the pipe 5, against the action of the springs 6 and 9. This relative displacement of the pipe 5 also affects the tongue 11 and the tap 12, which are fixed connected to the pipe 5. The tap 12 pushes back the firing pin 14 and makes the gun ready to fire only in the case when the gun is in the firing position and rests against the flat, in which the fasteners are to be driven. When the tongue 11 is displaced, the finger 19 informs the chamber piece 2 of a displacement along the inclined groove 2"'. One of the chambers 2' is then located in the rectilinear extension of the barrel 5, at the same time as the gun is ready to fire.

Fig. 10 shows the firing by pressing the trigger 17. The tap 12 is thereby turned and releases the firing pin 14.

Without going outside the scope of the invention,

the chamber piece 2 can be firmly connected to the body 1 and in that case this is provided with an opening designed for charging the chambers 2', with a flap for closing the opening after charging. The opening can be taken e.g. in the discs 1". The chamber piece can be shorter and only contain the chambers for the cartridges, if one allows the projectiles to be placed separately in the barrel each time. This can be of interest if projectiles of very different types are used. The chamber piece can be made in many

different geometric shapes, as corresponding outlets are arranged in the body 1, as the chamber piece must be able to be retracted vertically or shifted in any other direction in relation to the body 1. The spark plug does not necessarily have to

shown, cylindrical shape. It is, for example, possible to use cartridges and projectiles of a completely different type than the one shown in the drawings.

Claims (5)

1. Repeating bolt gun, consisting of a gun body arranged to cooperate with a chamber piece, which is provided with a plurality of chambers, arranged along one and the same circular arc, of a barrel for guiding projectiles, of a firing pin which is offset is arranged in the gun body and is under the influence of a spring, as well as a trigger for firing the gun, characterized in that the barrel (5) and a cuff (8) arranged around it are displaceably arranged in relation to the gun body (1), which two parts (5, 8) under the action of a spring (6— 9) are displaced forward in relation to the gun (I), and the barrel (5) and the cuff (8) are rigidly connected by a displaceable rod (II), which is arranged in a groove in the body (I), and that a tap (12) is articulated at the rear end of the rod (11) and is pressed inwards by an elastic member (13), which cooperates with the ignition pin (14) and with the trigger ( 17) for firing. 2. Bolt gun according to claim 1, characterized in that the firing pin (14) is arranged in such a way that it is only affected by the pressure from the tap (12) when the gun is pressed with sufficient force against the wall, etc., which is to be supplied with bolts, for a relative displacement of the movable members (5, 8, 11, 12) against the action of springs (6, 9) in relation to the gun body (1) and the members rigidly connected therewith. 3. Bolt gun according to claim 1 or 2, characterized in that the trigger (17) has a tip (17') which is brought into engagement with a projection (12') on the cock (12), whereby the release of a shot is made possible when the cock (12) is pulled sufficiently backwards together with the other connecting elements (5, 8, 11) to load the gun by pressing it against the wall etc. 4. Bolt gun according to claim 1, 2 or 3, characterized in that the rear end of the displaceable barrel (5) is provided with a guide ledge (5') which successively engages the chambers (2') in the chamber piece (2) to achieve a maximal gas pressure against the projectiles. 5. Bolt gun according to claim 1, 2, 3 or 4, characterized by a device for automatic twisting of the chamber piece (2) for successive advancement of each chamber (2') for cartridges and projectiles to the longitudinal axis of the barrel (5), which twisting movement occurs automatically in two steps, for advancing subsequent chambers and synchronously with the alternating displacements of the pipe (5) and the rod (11), the rod (II), which has a rectilinear path of movement, is provided with a finger (19) which stands under the action of an elastic member (20) for interaction with grooves (2S, 2<4>, 2<B>) which are placed on the peripheral surface of the chamber piece (2) and which indicate the positions corresponding to each chamber ( 2), and that these grooves are interconnected by means of V-shaped grooves, in which the finger (19) successively engages and by its rectilinear displacements causes the chamber piece (2) 1 to twist.