RU2034227C1 - Multicharge gas-generating device - Google Patents

Abstract

FIELD: arms. SUBSTANCE: device uses chamber unit 1 hinge-joined to base 2 by means of pin 3, trigger mechanism 4 with rotating hammer 5 and U-shaped extractor 6 common for all chambers. When unit 1 is hinged, the extractor head gets engageable with catches located on the face sides of base 2. EFFECT: improved operating conditions, reduced preparatory time for reloading, simplified design and decreased range of parts. 4 dwg

Description

 The invention is intended for use in defense technology, in particular in small arms with multiple aim to simplify the design and reduce the range of parts, and in gas pistols that accumulate energy to actuate water sprayers during fire fighting, made in the form of small-sized pulse installations.

 A multicharged gas generating device with a folding barrel unit includes a mechanism for extracting cartridges and cartridges, which, when folding the barrel unit, provides for the extraction of cartridges by moving the cartridges relative to the cartridges and then removing them from the device.

Known mechanisms for the extraction of cartridges in multi-barrel systems and a double-barreled shotgun with folding vertically paired trunks MTs 109 [1]
These systems are characterized by cumbersomeness, a large nomenclature of parts, design complexity, a large extraction force and unreliable action, require additional preparatory time when reloading weapons.

 Closest to the proposed device is the IZH-27 double-barreled shotgun [2], which has a U-shaped extractor with a jumper that serves as a head and side guides located with the possibility of longitudinal movement in grooves on the side surfaces of the barrel block (chamber), which is common for all chamber chambers . The movement is ensured by the interaction of the guides with the side walls of the box (base) of the gun when folding the barrel unit.

 However, this design has no solution in multi-barrel systems with more than two barrels in the barrel unit, in addition, it is distinguished by a large nomenclature of parts, a complex interaction of constituent elements and a significant extraction force.

 The technical result of the invention is to simplify the design of the mechanism of extraction of the liner, reducing the opening force of the barrel unit and improving operating conditions.

 This is achieved by making the extractor head in the form of a plate perforated by the central hole and open openings corresponding to the location of the chamber, one of the guides is elastic and provided with an inwardly directed protrusion, one of the side grooves of the cartridge chamber is made with a L-shaped recess for interaction with a protrusion of the guide, and the base on the sides of the mirror is equipped with vertical hooks made with upper bevels and arranged to interact wii with the head of the extractor when tilting the chamber unit.

 In FIG. 1 shows the unlocking of the barrel unit; in FIG. 2 position of the groove of the extractor during unlocking; in FIG. 3 extractor; in FIG. 4 T-shaped groove of the base (section AA in Fig. 1).

 A multiply charged gas generating device comprises a unit 1 with five chamber. The cartridge chamber is mounted on the base 2 with a pin 3 with the possibility of articulated movement of the block. A trigger mechanism 4 with a rotating trigger 5 is installed at the base. A trigger mechanism designed to alternately break the cartridge with the cartridge is self-cocking, when the trigger is moved, the trigger is rotated, whispering itself out from under the cocking frame and then breaking the cartridge cartridge through the hole in the base mirror.

 The chamber unit is equipped with an extractor 6, made in the form of a U-shaped part with a head and guides, the extractor head is perforated with a central hole and open holes extending into it, and for the convenience of gripping the sleeve with the fingers, the number of open holes corresponds to the number and location of the chamber. One of the guides c is made elastic and provided with an inwardly directed protrusion d, the guide b is made without protrusions. The elasticity of the protrusion is provided due to the thinning of the section. The extractor guides are placed in the grooves f and e of the barrel unit. One of the side grooves f is made with an L-shaped recess g for interacting with the protrusion d of the extractor guide. The elastic protrusion ensures that the protrusion of the extractor is pressed against the cartridge chamber and guaranteed contact with the guides. The rigid protrusion b provides directional movement of the extractor in the grooves of the block and eliminates jamming and skewing. The base on the sides of the mirror is equipped with vertical hooks k made with upper bevels o and arranged to interact with the extractor head when folding and closing the chamber block.

 The base is equipped with a T-shaped groove h, the bottom of which i is in contact with the extractor when the block is closed, and the surrounding protrusions k are in contact with the extractor when the block is opened. A T-slot is located above the axis of rotation of the block. The width of the groove l is made greater than the width of the head of the extractor. The bevel of the groove interacts with the extractor when closing the block with the barrel.

 The principle of operation of a multiply charged gas generating device is as follows.

 To activate the system, it is necessary to charge the device, for which it is necessary to fold the chamber unit. When the unit is tilted, the extractor 6 interacts with the protrusions k and moves along the grooves, while the protrusion d slides along the L-shaped niche and extends beyond the platform g, and is limited from further movement by the end face of the niche. Charges are inserted into the chamber in accordance with the location of the latter. When the charges are inserted into the chamber, the extractor is kept from folding by the platform g in contact with the stop d, after which the block is closed. When closing the chamber block, the extractor 6 slides along the plane i of the T-groove with its edge m, creating some bias, while the protrusion d disengages from the platform g and glides along the niche f, providing the extractor to be moved. With further closing of the block, the ends of the shells of charges come into contact with the base mirror i sequentially, which are pressed into the chamber.

 For firing a shot, you need to press the trigger, while the frame, moving, turns the trigger and after removing the sear from the engagement with the combat stop, the charge capsule is broken. To carry out the next actuation of the charge, you must release and press the trigger again.

 When using the present invention, the positive effect is expressed in improving operating conditions by reducing the opening force of the barrel block, which component is the extraction force of the sleeves, in reducing the range of parts, simplifying the design and improving operating conditions.

Claims (1)

 MULTI-CHARGED GAS-GENERATING DEVICE, including a base with a mirror, a cartridge flap in the vertical plane and a single U-shaped extractor with a head and guides placed in the lateral longitudinal grooves of the cartridge chamber, characterized in that the extractor head is made in the form of a plate perforated with a central hole and open holes opening into it, corresponding to the location of the chamber, one of the guides is made elastic and provided with an inwardly directed protrusion, one of Shackle grooves chamber block is formed with T-shaped recess for interaction with the guide protrusion, and the base is provided with a mirror on the sides vertical hooks, made with upper and bevels arranged to cooperate with the head of the extractor Pivoted chamber block.

Images