Autoregulační mechanismy pohonu pro automatické zbraně s odběrem plynů

Abstract

This bachelor thesis tries to investigate a self-regulating propulsion mechanism that works on the basic principle of using compressed gas in a weapon. Through careful calibration of the mechanical components, it facilitates controlled movement of the slide, allowing for the trouble-free ejection of used cartridges and efficient reloading of fresh cartridges from the magazine. Central to its operation is the integration of the counterweight system, which is carefully designed to precisely and elegantly regulate the movement of the slide, thus protecting the weapon from potential damage.

In this work, we will embark on a comprehensive investigation of the self-regulating propulsion mechanism, delving into its basic components, functional dynamics and implications for firearm performance. By exploring its design principles and operational intricacies, we seek to clarify its crucial role in the development of automatic weapons technology.