JPS61197807A - Change-over apparatus of firing device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a switching device comprising three pistons and two pressure chambers, the three pistons occupying a first end position when the first chamber is under pressure and the other. The present invention relates to a switching device for a firearm which occupies a second extreme position when there is pressure in the chamber of the firearm and an intermediate position when there is pressure in both chambers.

In the known switching device of this box (see FIG. 1), the two pistons are combined into one differential piston, which has a bore into which the third piston is movably guided. . Both pressure chambers are on either side of the differential piston. If there is pressure in only one of the compartments, the piston will reach one end position or the other end position. However, when the same pressure is applied to the compartments, the differential piston is moved to its one end position and the third piston is moved to the intermediate position shown in FIG.

The concentric arrangement of all three pistons requires a relatively large amount of space because of the forces that have to be generated when differential pressures are applied (hydraulic or pneumatic).

The problem to be solved by the invention is to create a switching device which generates the necessary forces when pressure is applied and which occupies as little space as possible.

According to the invention, this problem is achieved in that a first piston is movably guided in a large cylinder, and a second piston is movably guided in a small cylinder arranged parallel to this. The third piston is movably guided in the first piston, the first piston and the third piston are biased in one direction by the pressure in the first chamber, and the second piston is biased in one direction by the pressure in the first chamber. The piston rods of the second piston and the piston rod of the third piston are coupled to each other in a motion-restricting manner via a lever, and the third piston is biased in opposite directions by the pressure in the chamber. This is solved by being smaller than 2 pistons.

This arrangement has the advantage that there is a relatively large force to hold the piston in its intermediate position when there is pressure in both chambers, and that the force is sufficiently large in both extreme positions in a relatively small space for the full switching device. has.

Embodiments of the switching device according to the present invention will now be described with reference to the drawings.

According to FIG. 1, there is a small piston 11 in the housing 10.
and a large piston 12, both of which together form a differential piston 13. This differential piston I3 delimits a first small chamber 14 and a second large chamber 15. This room 1
The desired pressure can be generated pneumatically or hydraulically in 4 and 15 by openings 16 and 17. The differential piston 13 has a third piston smaller than both other pistons If and 12 in the bore 18.
It has a piston 19 of. A piston rod 20 is fixed to this small piston 19, and the piston rod is located at an intermediate position M in FIG. can be moved by three pistons 11, 12 and 19.

The operation of this known switching device is as follows.

1. If equal pressure is applied to both chambers 14 and 15,
The differential piston 13 automatically moves to the left to the position shown, and the third piston 19 is moved completely to the right, because of its energized surface due to the piston rod 20. is thick (because it is moved).Therefore, the third piston 19 is at the intermediate position M.

2. If only the left chamber 14 is under pressure, all three pistons 11, 12 and 19 are at their right end position R
reach.

3. If only the right chamber 15 is under pressure, all three pistons 11, 12 and 19 reach their leftmost position.

According to FIG. 2, the housing 21 has two mutually parallel cylindrical bores or cylinders 22 and 23. In the large bore 22 there is a first piston with a third cylindrical bore 25, and in the small bore 23 there is a second piston 26 to which a piston rod 27 is fixed. Third cylindrical hole 25
The third piston rod 29 has a second piston rod 29 fixed therein.
There is a piston 28. The two piston rods 27 and 29 are connected to each other via a lever 30, to which an actuating rod or switching rod or switching rod 31 is fixed.

Both pistons 24 and 28 define a first chamber 32 and the central piston 26 defines a second chamber 33. The desired pneumatic or hydraulic pressure is generated in both chambers 32 and 33 by means of openings 34 and 35.

Chamber 32 is closed by two sealing rings 36,37 and chamber 33 by two sealing rings. The first piston 24 is a ring-shaped piston rod 40
It can be supported by the lever 30 via. According to FIG. 2, all three pistons 24, 26 and 28 are in their central position M and are moved to the left by a distance a to their left end position and to the right by a distance b toward their right end position R. can be done.

The mode of operation of the switching device according to the invention is as follows.

1. If equal pressure is applied in both chambers 32 and 33,
A total of three pistons 24, 26 and 28 occupy the intermediate position M shown, since the large piston 24 is fully to the right and the middle piston 26 is located on the lever 30.
This is because the piston 24 is moved to the left until it touches the piston rod 40 of the largest piston 24. smallest piston 2
The left side surface of 8 is smaller than the ring surface 41 of the central piston 26 that delimits the chamber 33.

When only the left chamber 32 is under pressure, the smallest piston 28 is in a state of moving the lever 30 to the right end position R. When pressure is applied only to the right chamber 33, the central piston 26 is in a state of moving the lever 30 to the left end position.

Preferably, this switching device is used in firearms that are fed from the right or left or are fed with two different types of cartridges. In the intermediate position of the switching device no bullets are fed.

[Brief explanation of the drawing]

FIG. 1 is a diagrammatic representation of a known switching device, and FIG. 2 is a diagrammatic representation of a switching device according to the invention. Reference numeral 22 in the figure...Cylinder 23...Cylinder 24.26.28...Piston 27.29...Piston rod 30...Lever 32...First chamber 33...Second chamber L ...Second end position M...Intermediate position R...First end position

Claims (3)

[Claims] (1) A switching device including three pistons (24, 26, 28) and two pressure chambers (32, 33), and the three pistons (24, 26, 28) have pressure inside the first chamber (32). When pressure is applied, it occupies the first end position (R), and when pressure is applied in the other chamber (33), it occupies the second end position (R).
In the switching device of a firearm, the first piston (24) is moved into a large cylinder (22), occupying a position (L) and an intermediate position (M) when there is pressure in both chambers (32, 33). A second piston (26) is movably guided in a small cylinder (23) arranged parallel to this, and a third piston (26) is movably guided in the first piston (24). 28) is movably guided, the first piston (24) and the third piston (28) are urged in one direction by the pressure in the first chamber (32), and the second piston (26) are urged in opposite directions by the pressure in the second chamber (33), and the piston rod (27) of the second piston (26) and the third
The piston rod (29) of the piston (28) is a lever (
30), and the third piston (28) is smaller than the second piston (26). (2) The switching device according to claim 1, wherein the biased surface (41) of the second piston (26) is larger than the biased surface of the third piston (28). (3) The firearm is selectively fed with bullets from the left side or the right side or with bullets of the first type and bullets of the second type, with no bullets being fed in intermediate positions; The switching device according to claim 1