DE222489C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 222489 CLASS 72 a. GROUP

Addendum to patent 220470 of July 10, 1908.

Patented in the German Empire on November 29, 1908. Longest duration: July 9, 1923.

In the case of the sound absorber according to patent 220470, the powder gases produced when firing are used causes a vortex movement in a chamber connected to the barrel (or tube) assume that their flow energy is destroyed. Further tests have now shown that at the small deviation angle the passage of the gases through the chamber to the projectile from the exit end of the chamber from a tail or This is followed by the core of gases whose flow energy has not yet been transmitted by a rotary or Vortex movement is destroyed, which still creates some noise, which, however, is insignificant compared to a firearm without a blast suppressor. With the further training according to the invention is therefore aimed at the emergence of a to prevent such a gas nucleus by letting the gases leave a tail or nucleus behind the projectile would be deflected from the airline.

Furthermore, there should also be a stronger rotating or swirling movement of the powder gases in the steam chambers be achieved.

This purpose is achieved in that all partitions with one at the Deflecting surface located through opening are provided.

Two exemplary embodiments are shown in the drawing.

FIG. 1 is the side view of a hunting rifle provided with the sound absorber, FIG. 2 a central longitudinal section through the sound absorber in its most appropriate version, FIG. 3 shows a view and section of one of the improved cell bodies, FIG. 4 shows a longitudinal section another embodiment of the cell body and FIG. 5 shows a cell body in view.

In the embodiment of the detonator according to FIGS. 2 and 3, as in the device according to the main patent, a housing d is attached to the front of the barrel α by screwing or the like, which has a generally circular cross-section. This housing d is used to accommodate a number of noise-absorbing cell bodies e. This causes the powder gases emerging from the barrel α to rotate or swirl around the housing axis. The successive action of the cell bodies is similar to that of the cells of Fig. 2 of the main patent, but the device is such that the tail or core of powder gases which tends to form behind the projectile is deflected and divided and the energy of the total amount of the Gases is consumed in this rotary movement. Each of the cell bodies e provided for this purpose has an essentially circular or ring shape and a spiral or conchoidal cross section.

The wall in which the small opening e ^{1 of} the cell body e provided for the passage of the projectile is formed is towards the rear

to, so inclined towards the muzzle. A part of the gases following the projectile is guided on this inclined wall and receives a rotary or vortex movement around a substantially circular line as the axis of rotation in the conchoidal space of the cell body e, and the centrifugal force generated during this movement sets the energy of the movement in friction around that on the wall

ίο of the cell body arises, as in the main patent is described.

In the present embodiment, the opening e ^{1 is} not concentric to the cell body or to the housing d, which is known per se. The obliquely conical wall in which the opening e ^{1 is} located is, according to the invention, provided on part of its edge with a small deflecting surface e ² inclined towards the opening. Powder gases which hit this indented edge part e ^{2 of} the opening e ¹ are deflected against the flight path of the projectile; this amount of gas meets that which would otherwise form the tail or nucleus behind the projectile; this part of the powder gases is pushed aside, hits the next cell body and loses its flow energy there.

In addition to the rotary movement around the circular axis, the powder gases are used here still issued a rotary movement around the longitudinal axis of the blast damper. This advised the gases in a double whirling or rotating motion, during which they get their energy faster and lose more effectively than either of these movements alone.

In the embodiment according to FIGS. 4 and 5, the through openings for the projectile are not arranged eccentrically to the sound absorber. In the housing α there are cell bodies * ', the through openings i ^{1 of} which lie in the longitudinal axis of the housing. Each cell body is provided around the through hole ¹ i around with forward and inward deflecting i ^2, ending in tangential to the opening edges i ¹ i. ³ The effect of this tangential course of the deflecting surfaces is such that the powder gases hitting them assume the desired rotary or vortex movement around the longitudinal axis of the sound absorber in the following chamber. As part of the powder gases is deflected by the deflecting surfaces with the assistance of the edge which is rather tangential to the passage opening, it hits the gas tail or gas core which the projectile tends to follow and breaks it up, whereby it loses its flow energy.

Claims (1)

Patent claim: Sound absorber for firearms according to Patent 220470, characterized in that all partitions with one deflecting surface each located at the passage opening are provided, by which some of the powder gases are deflected and to meet with the gas core or gas tail as well as for deflecting and destroying this gas core or gas tail, which strives to follow the projectile through the opening. 1 sheet of drawings. , printed in the ReichsdruckereI.