RU2013121741A - RELOADING MECHANISM WITH LOCKING SPRING SHUTTER, WEAPON GENERATOR AND AUTOMATIC RELEASING MECHANISM WITH PERPENDICULAR LOCATED GAS PISTON - Google Patents

Abstract

1. The reloading mechanism with a spring locking the shutter, consisting of a receiver, shutter, parts for locking the shutter, parts for moving the shutter to the locked position, characterized in that as a part for moving the shutter to the locked position, a spring is applied that acts on the shutter in such a way to ensure the shutter is moved to its extreme forward position and the shutter is rotated to the locked position, this spring being located behind the shutter and made in the form of a Vito a cylindrical spring that accumulates mechanical energy during compression and twisting, while one end of this spring is attached to the bolt and the other is attached to the receiver, while the bolt is located in the receiver with the possibility of longitudinal movement for a limited distance and rotation around its longitudinal axis for a certain angle, while the receiver is made with a guide that prevents the rotation of the shutter when it is not in the extreme forward position. 2. The reloading mechanism with a locking bolt by a spring according to claim 1, characterized in that the protrusions located on the bolt and on the receiver are used as parts for locking the bolt, while these protrusions are located on the bolt and on the receiver in such a way as to ensure that in the extreme end position of the shutter when it is rotated a certain angle around its longitudinal axis, while those protrusions that provide for locking the shutter, which are located on the shutter, can be located on the front edge of the shutter or on the rear edge

Claims (25)

1. The reloading mechanism with a spring locking the shutter, consisting of a receiver, shutter, parts for locking the shutter, parts for moving the shutter to the locked position, characterized in that as a part for moving the shutter to the locked position, a spring is applied that acts on the shutter in such a way to ensure the shutter is moved to its extreme forward position and the shutter is rotated to the locked position, this spring being located behind the shutter and made in the form of a Vito a cylindrical spring that accumulates mechanical energy during compression and twisting, while one end of this spring is attached to the bolt and the other is attached to the receiver, while the bolt is located in the receiver with the possibility of longitudinal movement for a limited distance and rotation around its longitudinal axis for a certain angle, while the receiver is made with a guide that prevents the rotation of the shutter when it is not in the extreme forward position. 2. The reloading mechanism with a locking bolt by a spring according to claim 1, characterized in that the protrusions located on the bolt and on the receiver are used as parts for locking the bolt, while these protrusions are located on the bolt and on the receiver in such a way as to provide locking the shutter located in the extreme end position when it is rotated through a certain angle around its longitudinal axis, while those protrusions providing shutter locking that are located on the shutter can be located s on the front edge of the shutter or on the rear edge of the shutter or between the front and rear edges of the shutter, and those protrusions for locking the shutter that are located on the receiver are parallel to the portion of the receiver, while those protrusions for locking the shutter that are located on the receiver box, also perform the function of guides preventing the rotation of the shutter when it is not in the extreme front position, while on the receiver there are as many protrusions that lock the shutters ora how much on shutter. 3. The reloading mechanism with a spring locking bolt according to claim 2, characterized in that it is equipped with a barrel, in the wall of which a hole is made, and a gas pipe, the first end of which is attached to this hole in the barrel wall, and the second is located near the shutter, both of which the ends of the vent pipe are bent at right angles to the central part of the vent pipe, and the central part of the vent pipe is parallel or almost parallel to the longitudinal axis of the bore, the shutter is made with a straight th or curved projection located side shutter perpendicularly or almost perpendicularly to the longitudinal axis of the shutter, wherein when the shutter in the closed position, this projection is located near the second end of the gas outlet tube, wherein the projection is one of providing the shutter locking protrusions. 4. A gun generator, consisting of parts that convert part of the mechanical energy of the projectile fired into electrical energy, and / or parts that convert some of the mechanical energy of any moving part of the firearm’s reloading mechanism into electrical energy. 5. The gun generator according to claim 4, characterized in that it consists of a receiver, a shutter located near the barrel of the winding and located near the shutter of the electromagnet, while the electromagnet consists of a winding made in the form of a solenoid or in the form of a frame, and a core, the winding of the electromagnet is attached to the receiver, and the core of the electromagnet is attached to the winding of the electromagnet or to the receiver, while the electromagnet is located so as not to impede the supply of the cartridge into the chamber and ejection if there is an unused cartridge, if the electromagnet winding is made in the form of a solenoid, then it is located above the shutter or under the shutter or to the side of the shutter, and the core is located inside this solenoid, while if the electromagnet winding is made in the form of a frame, then it and the core are located around the shutter, while the shutter is a magnet or connected to a magnet, while the shutter is located in the receiver with the possibility of longitudinal movement for a limited distance and rotation around its longitudinal axis at a certain angle, while the shutter and receiver are made with protrusions to lock the shutter, while these protrusions are located on the shutter and receiver in such a way as to ensure that the shutter is locked in its most extreme position when it is rotated through a certain angle around its longitudinal axis , while those protrusions that lock the shutter, which are located on the shutter, can be located on the front edge of the shutter or on the rear edge of the shutter or between the front and rear edges of the shutter thief, and those protrusions that provide locking for the shutter, which are located on the receiver, are located parallel to the portion of the receiver, while the receiver has as many protrusions for locking the shutter as on the bolt, and those protrusions for locking the shutter, which are located on the receiver also perform the function of guides that prevent the shutter from turning when it is not in the extreme forward position, while the shutter is spring-loaded with a spring providing shutter movement in the extreme forward position and turning the shutter to the locked position, while this spring is attached at one end to the receiver and the other end is attached to the shutter, this spring is located behind the shutter and is made in the form of a twisted cylindrical spring that accumulates mechanical energy during compression and when twisting, the electromagnet converts electrical energy into mechanical energy transmitted to the shutter and is located relative to the shutter in such a way that, providing the electrical energy transferred to the mechanical energy transmitted to the shutter, to enable the shutter to be unlocked, while the winding located near the barrel acts as a part that converts part of the mechanical energy of the projectile fired into electrical energy, while the winding located near the barrel is made in the form of a solenoid and is located near the barrel muzzle or near the other part of the trunk, and in the barrel wall near this winding, a radial or oblong hole is made, closed by the insert, while the curled hole and the insert closing it are made tapering as they approach the barrel channel, and the winding located near the barrel is located inside or behind the aforementioned insert, while the winding located near the barrel is located above the barrel or under the barrel or to the side of the barrel, and the aforementioned insert is made of aluminum or ceramic, while inside the aforementioned insert or behind it can be located a magnet located with the ability to magnetize the fired projectile, while located near of the barrel, the winding is attached to the receiver or to the insert that closes the hole in the barrel wall, while in the design of the gun generator there is a wire connecting the winding located near the barrel to the winding of the electromagnet located near the shutter, while the aforementioned windings and wire are connected or made in one piece, wherein the aforementioned windings and the wire are coated with an insulator made of ceramic or a heat-resistant polymer or a heat-resistant polymer, coated on the outside with aluminum. 6. The gun generator according to claim 4, characterized in that it consists of a receiver, a shutter located near the barrel of the winding and located near the shutter of the electromagnet, while the electromagnet consists of a winding made in the form of a solenoid or in the form of a frame, and a core, the winding of the electromagnet is attached to the receiver, and the core of the electromagnet is attached to the winding of the electromagnet or to the receiver, while the electromagnet is located so as not to impede the supply of the cartridge into the chamber and ejection if there is an unused cartridge, if the electromagnet winding is made in the form of a solenoid, then it is located above the shutter or under the shutter or to the side of the shutter, and the core is located inside this solenoid, while if the electromagnet winding is made in the form of a frame, then it and the core are located around the shutter, while the shutter is a magnet or connected to a magnet, while the shutter is located in the receiver with the possibility of longitudinal movement for a limited distance and rotation around its longitudinal axis at a certain angle, while the shutter and receiver are made with protrusions to lock the shutter, while these protrusions are located on the shutter and receiver in such a way as to ensure that the shutter is locked in its most extreme position when it is rotated through a certain angle around its longitudinal axis , while those protrusions that lock the shutter, which are located on the shutter, can be located on the front edge of the shutter or on the rear edge of the shutter or between the front and rear edges of the shutter thief, and those protrusions that provide locking for the shutter, which are located on the receiver, are located parallel to the portion of the receiver, while the receiver has as many protrusions for locking the shutter as on the bolt, and those protrusions for locking the shutter, which are located on the receiver also perform the function of guides that prevent the shutter from turning when it is not in the extreme forward position, while the shutter is spring-loaded with a spring providing shutter movement in the extreme forward position and turning the shutter to the locked position, while this spring is attached at one end to the receiver and the other end is attached to the shutter, this spring is located behind the shutter and is made in the form of a twisted cylindrical spring that accumulates mechanical energy during compression and when twisting, the electromagnet converts electrical energy into mechanical energy transmitted to the shutter and is located relative to the shutter in such a way that, providing the electrical energy transferred to the mechanical energy transmitted to the shutter, to enable the shutter to be unlocked, while the winding located near the barrel acts as a part that converts part of the mechanical energy of the projectile fired into electrical energy, while the winding located near the barrel is made in the form of a solenoid and is located near the barrel muzzle or near the other part of the trunk, and in the barrel wall near this winding, a radial or oblong hole is made, closed by the insert, while the curled hole and the insert closing it are made tapering as they approach the barrel channel, and the winding located near the barrel is located inside or behind the aforementioned insert, while the winding located near the barrel is located above the barrel or under the barrel or to the side of the barrel, and the aforementioned insert is made of aluminum or ceramic, while on the opposite side of the barrel relative to the winding located near the barrel there is a magnet located with the ability to magnetize the shot sleep poison, while in the barrel wall near the magnet an additional radial or oblong hole is made, closed by an additional insert and located opposite the hole behind which the winding located near the barrel is located, while the aforementioned additional hole and the additional insert closing it are made tapering as they approach the channel the barrel, while the additional insert is made of aluminum or ceramic, and the magnet is inside the additional insert or behind it, while the winding near the barrel is attached to the receiver or to the insert closing the hole in the barrel wall, while the gun generator has a wire connecting the winding located near the barrel to the coil of the electromagnet located near the shutter, while the aforementioned windings and wire are connected or made in the form of one parts, while the aforementioned windings and wire are covered with an insulator made of ceramic or a heat-resistant polymer or a heat-resistant polymer, outside about aluminum. 7. The gun generator according to claim 4, characterized in that it consists of a receiver, a shutter attached to a muzzle device of the winding and located near the shutter of an electromagnet, the electromagnet consists of a winding made in the form of a solenoid or in the form of a frame, and a core, wherein the electromagnet winding is attached to the receiver, and the electromagnet core is attached to the electromagnet winding or receiver, while the electromagnet is located so as not to impede the supply of the cartridge into the chamber and ejection a spent sleeve or an unused cartridge, while if the winding of the electromagnet is made in the form of a solenoid, then it is located above the shutter or under the shutter or to the side of the shutter, and the core is located inside this solenoid, while if the winding of the electromagnet is made in the form of a frame, then it is the core located around the shutter, while the shutter is a magnet or connected to a magnet, while the shutter is located in the receiver with the possibility of longitudinal movement for a limited distance and rotation around its the axis of the axis at a certain angle, while the shutter and the receiver are made with protrusions providing locking of the shutter, while these protrusions are located on the shutter and on the receiver in such a way as to ensure that the shutter is locked in its extreme emergency position when it is rotated through a certain angle around its the longitudinal axis, while those protrusions that lock the shutter, which are located on the shutter, can be located on the front edge of the shutter or on the rear edge of the shutter or between the front and rear m by the edge of the shutter, and those protrusions that lock the shutter, which are located on the receiver, are located parallel to the portion of the receiver, while the receiver has as many protrusions that lock the shutter as on the shutter, and those protrusions that lock the shutter, which are located on the receiver also perform the function of guides preventing the rotation of the shutter when it is not in the extreme forward position, while the shutter is spring-loaded with a spring providing movement the shutter in its extreme forward position and turn the shutter to the locked position, while this spring is attached at one end to the receiver and the other end is attached to the shutter, while this spring is located behind the shutter and is made in the form of a twisted coil spring accumulating mechanical energy at compression and twisting, while the electromagnet converts electrical energy into mechanical energy transmitted to the shutter and is located relative to the shutter in such a way that, providing the conversion of electrical energy into mechanical energy transmitted to the shutter, to enable the shutter to be unlocked, while the winding attached to the muzzle device performs the function of a part that converts part of the mechanical energy of the projectile fired into electric energy, while the winding attached to the muzzle device is made in the form of a solenoid and is located around the muzzle device either above the muzzle device or under the muzzle device or to the side of the muzzle device, and as In the case of a muzzle device, a barrel extension or muzzle or silencer or flame arrester or compensator or muzzle brake or other suitable muzzle device can be used, while a magnet located near the winding attached to the muzzle device can be magnetized, and this magnet can be located near the winding attached to the muzzle device or on the opposite side of this winding from the muzzle device, while in Weapon generator design, there is a wire connecting the winding attached to the muzzle device to the winding of an electromagnet located near the shutter, while the aforementioned windings and the wire are connected or made in one piece, while the aforementioned windings and the wire are covered with an insulator made of ceramic or heat-resistant polymer or made of heat-resistant polymer coated on the outside with aluminum .. 8. The gun generator according to claim 5, 6, or 7, characterized in that it is equipped with a winding providing the conversion of part of the mechanical energy of the moving bolt into electrical energy and with details providing the conversion of electrical energy into mechanical energy transmitted to those located in the store or in the cartridge tape cartridges and / or parts made with the ability to act on the cartridges located in the store or in the cartridge tape, while as parts providing the conversion of electrical energy the mechanical energy transmitted to the cartridges located in the magazine or in the cartridge strip and / or to the parts made with the ability to act on the cartridges located in the magazine or in the cartridge strip, an electric motor can be used, the rotor of which is made to engage with the rotor of the rotor magazine or with a cartridge tape, and / or an electromagnet attached to the magazine receiver or cartridge receiver, while if the gun generator is equipped with an electric motor, the rotor of which is made with the ability to engage with the rotor of the rotor magazine or with the cartridge belt, then this electric motor is fixed motionless or limited movably with the ability to move a limited distance along its longitudinal axis and / or along its transverse axis, while if the gun generator is equipped with an electric motor, the rotor of which is made with the ability to engage with the rotor of the rotor magazine or with the cartridge belt, the rotor of this electric motor is made with protrusions, and the stator of this electric motor has with an elastic protrusion located with the ability to interact with the protrusions on the rotor of the electric motor in such a way as to allow rotation of the rotor of the electric motor in only one specific direction, while if the gun generator is equipped with an electromagnet attached to the receiver of the magazine or to the receiver of the cartridge strip, this electromagnet consists from a coil made in the form of a solenoid and a core located inside this solenoid, and the coil of this electromagnet is covered with an insulator made of ceramic and and from a heat-resistant polymer or a heat-resistant polymer coated on the outside with aluminum, and if the gun generator is equipped with an electromagnet attached to the magazine receiver or cartridge receiver, the coil of this electromagnet is located around the store receiver shaft or in front of the store receiver shaft or behind the store receiver shaft either to the side of the magazine receiver shaft or near the window located in the cartridge cartridge receiver for removing the empty cartridge cartridge from the receiver a throne tape, while the winding providing the conversion of part of the mechanical energy of the moving shutter to electrical energy is made in the form of a solenoid and is located around the shutter or above the shutter or under the shutter or to the side of the shutter, while if the winding provides the conversion of part of the mechanical energy of the moving shutter to electric energy around the shutter, then it is located so as not to be around the shutter when the shutter is in the extreme forward position, while the winding provides The conversion of part of the mechanical energy of a moving bolt to electrical energy is attached to the receiver so as not to impede the supply of a cartridge into the chamber and the ejection of a spent cartridge case or unused cartridge, while the gun generator has two wires connecting the winding to convert some of the mechanical energy of the moving shutter into electrical energy with a winding of parts providing the conversion of electrical energy into mechanical energy, we transmit to cartridges and / or to parts located in the magazine or in the cartridge strip with the ability to act on the cartridges located in the magazine or in the cartridge strip, while the above-mentioned windings and wires are connected or made in one piece, while the winding provides the conversion of part of the mechanical moving gate energy into electrical energy and the above wires are coated with an insulator made of ceramic or a heat-resistant polymer or a heat-resistant polymer coated on the outside lumine, while if the design of the weapon equipped with a gun generator contains several store receivers, then the design of the gun generator may contain one part that converts electrical energy into mechanical energy transmitted to cartridges and / or parts located in the store or in the cartridge tape made with the ability to act on cartridges located in the store or in the cartridge strip, or several such parts connected by wires and located near knowledge of store receivers. 9. The gun generator of claim 8, characterized in that it is equipped with a counter located in the magazine rounds, the design of which is similar to the design of a magnetoelectric voltmeter or other type of voltmeter, while the counter located in the magazine rounds is connected to the winding of the gun generator in parallel with the winding of the parts providing electrical conversion energy into mechanical energy transmitted to the cartridges located in the store or in the cartridge tape and / or to the parts made with the possibility of impact press on cartridges located in the magazine or in the cartridge tape, while the counter of the cartridges located in the magazine can be equipped with a regulator that allows the user to change the unit of measure used by the counter of cartridges located in the magazine, while the counter located in the magazine of cartridges is equipped with a part providing data output the number of cartridges located in the store, which is used as a monitor or electronic dial, while the part provides the output of data on the number of distribution cartridges stored in the magazine is designed in such a way as to display data on the number of cartridges located in the magazine in the form of numbers, while the part providing the output of data on the number of cartridges located in the magazine is made in such a way that it continues to display the latest data on the number of cartridges in the magazine at the same time, the part providing the output of data on the number of cartridges located in the magazine is located near the sights or is part of the sights I, the part providing the output of data on the number of cartridges located in the magazine can be equipped with one or more buttons that allow the user to adjust the displayed information on the number of cartridges located in the magazine, while the counter located in the magazine is attached to the magazine receiver or receiver or to another suitable part of the firearm, with the counter located in the magazine cartridges may be inside or outside that part of the firearm to which it is attached, while if the design of the weapon equipped with a weapon generator contains several magazine receivers, then the design of the weapon generator may contain one or more counters of cartridges located in the store, while if the design of the weapon generator contains several counters located in cartridges store, informing the user about the number of cartridges in several stores at the same time in the receivers stores, then these counters are located store cartridges have shared part provides output data on the number of cartridges arranged in the store, which is configured so as to output data on the number of stores located in separate cartridges and together, as the sum of ammunition. 10. The mechanism of automatic reloading with a perpendicular gas piston, consisting of parts that provide automatic reloading of firearms after a certain stage of the shot, among which there is a gas cylinder with a gas piston located in it, characterized in that the gas piston is located at an angle from 30 to 90 degrees, inclusive, relative to the longitudinal axis of the bore or relative to a conditional line parallel to the longitudinal axis of the bore. 11. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 10, characterized in that it is equipped with a barrel, in the wall of which a hole is made, while this hole in the barrel wall functions as a gas cylinder or as part of a gas cylinder, if it is a hole performs the function of a part of the gas cylinder, the rest of the gas cylinder is made in the form of a part with the barrel, while the part of the gas piston is made with a larger diameter than the mirror of the gas piston, and the gas cylinder when the gas piston in any position, the gas piston is limited movable relative to the barrel, and the gas piston in the initial position the mirror is located close to the bore. 12. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11, characterized in that it is equipped with a regulator that allows you to adjust the amount of impulse required to move the gas piston and fix the gas piston in its original position, while the regulator is made in the form of a cylindrical button, located with the possibility of longitudinal movement at a limited distance and rotation around its longitudinal axis by a certain angle, while the regulator is located coaxially with the gas piston, at the same time, between the bottom of the regulator and the gas piston there is a coiled cylindrical spring ensuring the return of the gas piston to its original position, while the regulator is located on a guide made with two longitudinal cuts located on opposite sides, with two or more departing from each of these cuts two additional cuts located perpendicular or almost perpendicular to the main cuts, while on the inner side of the regulator wall there are two protrusions Opposite each other and made with the possibility of interacting with cutouts in the regulator guide, the regulator wall is located around the regulator guide in such a way that it closes the notches in the regulator guide, while the regulator guide is connected to the gas cylinder or made in the form of one part with it, the regulator is made with an additional protrusion inside, located in the center of the bottom of the regulator, while the outer side of the wall of the regulator is ribbed or multifaceted. 13. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11 or 12, characterized in that it is equipped with a receiver, a shutter and an electric transmission, which transfers mechanical energy from the gas piston to the shutter, while the gas piston is a magnet or connected to a magnet in this case, if the gas piston is connected to the magnet, then between the gas piston and the magnet there may be a ceramic part that connects the gas piston to the magnet and prevents heat from the gas piston to the magnet, while the gas piston is spring-loaded to ensure its return to its original position, while the shutter is a magnet or connected to a magnet, while the shutter is located in the receiver with the possibility of longitudinal movement by a limited distance and rotation by a certain angle around its longitudinal axis, while the shutter and receiver are made with protrusions providing locking of the shutter, while these protrusions are located on the shutter and on the receiver so at the same time, in order to ensure that the shutter is in its final extreme position when it is rotated by a certain angle around its longitudinal axis, while those protrusions for locking the shutter that are located on the shutter can be located on the front edge of the shutter or on the rear edge of the shutter or between the front and the rear edge of the shutter, and those protrusions that provide locking of the shutter, which are located on the receiver, are located along the section of the receiver, while on the receiver there are as many protrusions providing locking of the shutter as much as the shutter, and those protrusions providing locking of the shutter that are located on the receiver also serve as guides preventing the rotation of the shutter when it is not in the extreme forward position, while the shutter is spring-loaded to allow the shutter to move to the extreme forward position and turning the shutter to the locked position, while this spring is attached at one end to the receiver and the other end is attached to the shutter, while this spring is laid behind the shutter and made in the form of a coiled coil spring accumulating mechanical energy during compression and twisting, while the electric transmission consists of two parts, one of which converts the mechanical energy of a moving gas piston into electrical energy and is made in the form of a solenoid located around the gas piston, and the second provides the conversion of electrical energy into mechanical energy transmitted to the gate and is made in the form of an electromagnet located near the shutter, while the electromagnet is located relative to the shutter in such a way that, providing the conversion of electrical energy into the mechanical energy transmitted to the shutter, it unlocks the shutter, while the electromagnet is located so as not to impede the supply of a cartridge into the chamber and the ejection of a spent sleeve or unused cartridge wherein the electromagnet consists of a winding made in the form of a solenoid or in the form of a frame, and a core, while the winding of the electromagnet is attached to the receiver, the core of the electromagnet is attached to the coil of the electromagnet or to the receiver, while if the coil of the electromagnet is made in the form of a solenoid, then it is located above the gate or under the gate or to the side of the gate, and the core is located inside this solenoid, while if the coil of the electromagnet is made in the form of a frame , then it and the core are located around the shutter, while the windings of the first and second parts of the electric transmission are connected by a wire, while the windings of the first and second parts of the electric transmission and the wire can be made in the form of a single part or in the form of several connected parts, while they are covered with an insulator made of ceramic or a heat-resistant polymer or a heat-resistant polymer coated on the outside with aluminum, while the electric transmission is attached to the receiver. 14. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11 or 12, characterized in that it is equipped with a receiver, a shutter and a pneumatic transmission, which transfers mechanical energy from the gas piston to the shutter, while the pneumatic transmission can be made to work like a hydraulic transmission when its chamber is filled with liquid, while the pneumatic transmission is made in the form of a chamber with a piston located in it, while the chamber is pneumatically th transmission is made in the form of a cylinder, a tube extends from the bottom or wall of which the channel has a smaller diameter than the diameter of the aforementioned cylinder, while the main part of the pneumatic transmission tube is parallel or almost parallel to the barrel, while the pneumatic transmission tube is bent at the end at a right or almost right angle, and the channel of the pneumatic transmission tube can be closed by a pusher located limited movably at the end of the pneumatic transmission tube with the possibility of partially extending from the channel of the pneumatic transmission tube and acting on one of the protrusions located on the shutter, while the pneumatic transmission piston is located in the pneumatic transmission cylinder, while the pneumatic transmission cylinder is connected to the gas cylinder or is made in the form of one part with it while the gas piston is connected to the pneumatic transmission piston or is made in the form of one part with it, while the mirror of the pneumatic transmission piston can be rounded or oval in shape, while the pneumatic transmission cylinder and the pneumatic transmission piston mirror have a larger diameter than the gas cylinder and the gas piston mirror, while the gas piston and the pneumatic transmission piston are spring loaded by a spring located in the pneumatic transmission cylinder between the bottom of the pneumatic transmission cylinder and the pneumatic piston transmission, while at the junction of the tube of the pneumatic transmission with the cylinder of the pneumatic transmission can be located reg a flap that allows you to adjust the operation of the pneumatic transmission, while in the wall of the cylinder of the pneumatic transmission can be made a hole located near the initial position of the mirror of the piston of the pneumatic transmission so that when moving the piston of the pneumatic transmission it covers this hole, while this hole can be equipped spring-loaded valve, made with the ability to open under the influence of the user and with the ability to automatically open under the action of pressure in the case of a significant difference in the pressure in the pneumatic transmission chamber from the pressure in the environment, while the pneumatic transmission chamber can be equipped with a variable-volume control chamber providing automatic pressure equalization in the pneumatic transmission chamber with the ambient pressure, while the control chamber can be connected with the main chamber of the pneumatic transmission through an opening made in the wall of the cylinder of the pneumatic transmission near the original position of the piston of the pneumatic transmission piston, while the control chamber can be made in the form of a cylinder with a spring-loaded or non-spring-loaded piston located in it or in the form of a chamber made of an elastic and elastic, sealed material, while the shutter is located in the receiver with the possibility of longitudinal moving a limited distance and turning a certain angle around its longitudinal axis, while the shutter is made with a straight or curved protrusion located on the side of the shutter it is normal or almost perpendicular to the longitudinal axis of the shutter, and when the shutter is in the locked position, this protrusion is located near the end of the pneumatic transmission tube, and the shutter and receiver are made with protrusions that lock the shutter, while these protrusions are located on the shutter and on the receiver in such a way as to provide locking of the shutter located in the extreme pit position when it is rotated by a certain angle around its longitudinal axis, while those protrusions ensuring the locking of the shutter, which are located on the shutter, can be located on the front edge of the shutter or on the rear edge of the shutter or between the front and rear edges of the shutter, and those protrusions for locking the shutter, which are located on the receiver, are located along the portion of the receiver, while on the receiver there are as many protrusions for locking the shutter as there are for the shutter, and those protrusions for locking the shutter that are located on the receiver also function as which prevent the shutter from turning when it is not in its extreme forward position, while the shutter is spring-loaded with a spring that allows the shutter to move to its extreme forward position and rotate the shutter to the locked position, while this spring is attached to the receiver at one end and attached to the shutter at the other end Moreover, this spring is located behind the shutter and is made in the form of a twisted cylindrical spring accumulating mechanical energy during compression and twisting. 15. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11 or 12, characterized in that it is equipped with a shutter, a shutter frame and a pneumatic transmission, which transfers mechanical energy from the gas piston to the shutter frame, while the pneumatic transmission can be made with the possibility operate as a hydraulic transmission when its chamber is filled with liquid, while the pneumatic transmission is made in the form of a chamber with a piston located in it, while the chamber is pneumatic The transmission is made in the form of a cylinder, a tube extends from the bottom or wall of which the channel has a smaller diameter than the diameter of the aforementioned cylinder, while the pneumatic transmission tube is parallel or almost parallel to the barrel, while the shutter frame is located in the forward position near the end of the tube of the pneumatic transmission, while the channel of the tube of the pneumatic transmission can be closed by a limited movable pusher, located limited movably at the end of the tube of the pneumatic transmission with the ability to partially extend from the channel of the tube of the pneumatic transmission and thus act on the bolt frame, while the piston of the pneumatic transmission is located in the cylinder of the pneumatic transmission, while the cylinder of the pneumatic transmission is connected to the gas cylinder or made in the form of one piece with it while the gas piston is connected to the piston of the pneumatic transmission or made in the form of one part with it, while the mirror of the piston of the pneumatic transmission m it can be round or oval, with the pneumatic transmission cylinder and the piston of the pneumatic transmission having a larger diameter than the gas cylinder and the mirror of the gas piston, while the gas piston and the piston of the pneumatic transmission are spring-loaded in the pneumatic transmission cylinder between the bottom of the pneumatic transmission cylinder and the pneumatic transmission piston, while at the junction of the pneumatic transmission tube with the pneumatic transmission cylinder can be located An adjustable damper is allowed to regulate the operation of the pneumatic transmission, while in the wall of the cylinder of the pneumatic transmission a hole can be made located near the initial position of the mirror of the piston of the pneumatic transmission so that when moving the piston of the pneumatic transmission it closes this hole, while this hole can be equipped with a spring-loaded valve, made with the ability to open under the influence of the user and with the ability to automatically open under the influence of pressure in the case of a significant difference in the pressure in the pneumatic transmission chamber from the pressure in the environment, while the pneumatic transmission chamber can be equipped with a variable-volume control chamber providing automatic pressure equalization in the pneumatic transmission chamber with the pressure in the environment, while the control chamber can be connected to the main chamber of the pneumatic transmission through an opening made in the wall of the cylinder of the pneumatic transmission In the initial position of the piston of the pneumatic transmission, the control chamber can be made in the form of a cylinder with a spring-loaded or non-spring-loaded piston located in it or in the form of a chamber made of an elastic and elastic, sealed material, while the bolt frame is spring-loaded with a coil spring, located behind the bolt frame, while the rear edge of the barrel and the front edge of the shutter are made with protrusions arranged in such a way as to ensure locking is located in the edge It shutter forward position when it is rotated a predetermined angle about its longitudinal axis. 16. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11 or 12, characterized in that it is equipped with a rotary chamber and a cable kinematically connecting the gas piston with a rotary chamber, while a roller serving as a cable guide is located near the gas piston, part of the cable goes around this roller, passing between the roller and the barrel, while the roller is attached to the barrel or to the receiver and is located so that the closest part of the roller to the barrel is closer to the barrel lu than the location of the gas piston connected to the cable, wherein the cable is attached to the chamber near its pivot axis, wherein a pivot axis of the chamber is attached torsion spring providing the return of the rotary chamber to its original position and return of the gas piston in the initial position. 17. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11 or 12, characterized in that it is equipped with a receiver, a shutter, a gear located with the ability to act on the shutter, and a cable kinematically connecting the gas piston to this gear, while near a gas piston is a roller that acts as a cable guide, while part of the cable goes around this roller, passing between the roller and the barrel, while the roller is attached to the barrel or receiver and is located so that the part of the roller closest to the barrel is closer to the barrel than the junction of the gas piston with the cable, while one end of the cable is attached to the gear near its axis, while the gear is fixed to the axis attached to the receiver and is located in such a place to interact with the shutter when it is in any position, while the shutter is located in the receiver with the possibility of longitudinal movement by a limited distance and rotation by a certain angle around its longitudinal axis, while the ator and the receiver are made with protrusions providing locking of the shutter, while these protrusions are located on the shutter and on the receiver in such a way as to ensure locking of the shutter located in the extreme rest position when it is rotated through a certain angle around its longitudinal axis, while those protrusions provide locking the shutter, which are located on the shutter, are located along the shutter with the ability to interact with the gear, and those protrusions providing locking of the shutter, which are located on the receiver, located along the portion of the receiver, while on the receiver there are as many protrusions that lock the shutter as there are on the shutter, and those protrusions that lock the shutter that are located on the receiver also serve as guides that prevent the shutter from turning when it is not in the extreme forward position, while the shutter is spring-loaded to ensure the shutter is moved to the extreme forward position and the shutter is rotated to the locked position, while at one end it is attached to the receiver, and at the other end it is attached to the bolt, this spring being located behind the bolt and made in the form of a twisted cylindrical spring accumulating mechanical energy during compression and twisting, while this spring also provides the return of the gear and the gas piston in the starting position. 18. The mechanism of automatic reloading with a perpendicularly arranged gas piston according to claim 11 or 12, characterized in that it is equipped with a shutter located in the receiver or on the pistol frame with the possibility of longitudinal movement for a limited distance, while the shutter is equipped with a rod made in the form of one parts with a shutter, while the gas piston has a cylindrical shape and is made with an oval transverse hole, and part of the shutter rod passes through this hole in the gas piston, while the shutter rod is made with a protrusion at the end positioned so that it engages with the gas piston when the shutter is in the frontmost position and the gas piston is in the initial position, while this protrusion is located on the side of the rod that is facing in the opposite direction from the barrel, and the length of the side of this protrusion, which is parallel to its base, is equal to the stroke length of the shutter, while the longitudinal axis of the channel formed by the hole made in the gas piston is parallel to the longitudinal axis of the channel la, while the shutter is spring-loaded by a coiled coil spring providing its movement to the extreme forward position, while this spring can be located behind the shutter or around the shutter rod, while the gas piston is spring-loaded by the spring ensuring its movement to its original position, while the wall of the gas cylinder is made with two oval holes located opposite each other so as not to impede the movement of the valve stem. 19. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11, characterized in that it is equipped with a shutter located in the receiver with the possibility of longitudinal movement for a limited distance, while the shutter is equipped with a rod made in the form of a single part with a shutter, the valve stem is made flexible and elastic enough to bend under the influence of a moving gas piston, and then return to its original position and ensure that the gas piston returns to its original position position, while the barrel is equipped with a protrusion, and the valve stem is equipped with a protrusion arranged to engage with the protrusion located on the barrel when the shutter is in the frontmost position, while the aforementioned protrusion located on the barrel is located near the gas cylinder, between the gas cylinder and the breech the barrel, while the gas piston is located with the ability to move from the initial position to the final position to act on the shutter rod when the shutter is in the extreme front position, the return of the gas piston to its original position provides an elastic shutter rod, and the shutter is spring-loaded by a coil spring located around the shutter rod or behind the shutter, while the protrusion located on the shutter rod is made so that the length of that side which is parallel its base is equal to the stroke length of the shutter, while the protrusion located on the shutter rod is located on the side of the rod that faces the barrel. 20. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11, characterized in that it is equipped with a revolving drum and a shaft that transfers mechanical energy from the gas piston to the revolving drum, while one of the sides of the part of the gas piston that protrudes from the gas cylinder when the gas piston is in any position, is made with elastic protrusions that ensure the transfer of mechanical energy from the gas piston to the shaft only when moving the gas piston I’m from the starting position to the final position, and the shaft end that interacts with the gas piston is made in the form of a gear and is located on the side of the gas piston which is made with elastic protrusions, while the shaft is made in the form of one part with a revolving drum or connected to it, while the shaft and the revolving drum are coaxial, while the gas piston is spring-loaded with a twisted or flat spring ensuring the gas piston returns to its original position. 21. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11, characterized in that it is equipped with a receiver, a shutter and a shaft that transfers mechanical energy from the gas piston to the shutter, while one of the sides of the part of the gas piston that protrudes from the gas cylinder when the gas piston is in any position, made in the form of a gear rack, and that end of the shaft that interacts with the gas piston is located on the side of the gas piston that is made in the form of a gear rack, while both ends of the shaft are made in the form of gears, while the shaft is located on the side of the bolt or on top of the bolt or on the bottom of the bolt, while the shaft is located so as not to impede the feeding of the cartridge into the chamber and the ejection of the spent sleeve or unused cartridge, while the longitudinal axis of the shaft is parallel to the longitudinal axis of the shutter, while the shaft is made long enough to interact with the shutter when the shutter is in any position, while the shutter is located in the receiver with the possibility of longitudinal movement at a limited distance and rotation at a certain angle around its longitudinal axis, while the shutter and receiver are made with protrusions to lock the shutter, while these protrusions are located on the shutter and on the receiver in such a way as to provide locking located in the extreme переж переж положении положении position of the shutter when it is rotated through a certain angle around its longitudinal axis, while those protrusions providing locking of the shutter, which are located wrenches on the shutter, are located along the shutter with the ability to interact with the shaft, and those protrusions that provide locking for the shutter, which are located on the receiver, are located along the section of the receiver, while the receiver has as many protrusions for locking the shutter as on the shutter, and those protrusions for locking the shutter, which are located on the receiver, also serve as guides preventing the rotation of the shutter when it is not in the extreme forward position, while m, the bolt is spring-loaded, which allows the bolt to move to the frontmost position and rotate the bolt to the locked position, while this spring is attached to the receiver at one end and attached to the bolt at the other end, while this spring is located behind the bolt and is made in the form of a twisted cylindrical springs accumulating mechanical energy during compression and twisting, while this spring also provides the return of the shaft and the gas piston to its original position. 22. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 11, characterized in that it is equipped with a shutter and a receiver, while the receiver is made with an inclined surface located on the path of the gas piston at an angle of 15 to 45 degrees relative to the gas piston while the barrel is mounted on the weapon with the possibility of rotation around the longitudinal axis of the barrel bore at a certain angle, while the aforementioned inclined surface is located so that when moving ha of the piston, the barrel rotates, while the aforementioned inclined surface can be straight or curved, while on the end of the gas piston that interacts with the aforementioned inclined surface, a roller can be fixed to reduce friction between the gas piston and the aforementioned inclined surface, while the barrel is spring-loaded spring providing the return of the barrel to its original position, while this spring, providing the return of the barrel to its original position, also provides the return of gas pores shnya in its original position, while this spring is attached to the receiver and can be made in the form of a twisted or flat spring, located with the ability to act on the gas cylinder or with the ability to act on another protrusion located on the barrel, while the shutter is located in the receiver with the possibility of longitudinal movement at a limited distance and rotation at a certain angle around its longitudinal axis, while the bolt and receiver are made with protrusions providing locking and, at the same time, these protrusions are located on the shutter and on the receiver in such a way as to ensure locking of the shutter located in the extreme end position when it is rotated by a certain angle around its longitudinal axis, while those protrusions providing locking of the shutter that are located on the shutter are located along the bolt, and those protrusions that provide locking of the shutter, which are located on the receiver, are located along the section of the receiver, while on the receiver there are as many protrusions they lock the shutter, how much is on the shutter, and those protrusions that provide locking for the shutter, which are located on the receiver, also act as guides that prevent the shutter from turning when it is not in the extreme front position, while the shutter is spring-loaded with a coil spring providing its movement to the extreme front position, while this spring is located behind the shutter, while the barrel with the shutter are kinematically connected by a gear and a shaft, which, when the barrel or shutter is rotated, provides synchronous rotation of the barrel and the bolt in opposite directions, with the gear and shaft located so as not to impede the supply of the cartridge into the chamber and the ejection of the spent sleeve or unused cartridge, while the axis of rotation of the gear and shaft are parallel relative to the axis of rotation of the shutter, while the shutter is located coaxial with the bore of the barrel, while the gear is located with the ability to interact with the barrel and with the shaft, and the shaft is located with the ability to interact with the gear and the shutter, while l is made long enough to interact with the shutter when the shutter is in any position, and the shaft ends are made in the form of gears, while on the barrel surface there are protrusions arranged to interact with the gear, while if the barrel is equipped with grooves that attach rotation of the projectile being shot, then the relative position of the gas piston with the aforementioned inclined surface of the receiver such that when the bolt is unlocked, the barrel rotates in the same direction as the shot the projectile being shot. 23. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 10, characterized in that it is equipped with a shutter, a receiver and a barrel, while the barrel is mounted on the weapon with the possibility of rotation around the longitudinal axis of the barrel bore at a certain angle, and the gas piston is fixedly attached to the receiver or made in the form of one part with it, while the gas cylinder is attached to the barrel or made in the form of one part with it, and a hole located near the gas cylinder is made in the barrel wall so that it allows powder gases to flow directly from the barrel into the gas cylinder, while the mirror of the gas piston is located at a small distance from the barrel, while the gas piston is located so that its longitudinal axis does not intersect with the barrel the gas cylinder is limitedly movable relative to the stationary parts of the weapon, while the barrel is spring-loaded to ensure the barrel returns to its original position, while this spring is attached to the barrel to timid and made in the form of a twisted or flat spring, located with the ability to act on the gas cylinder or with the ability to act on another protrusion located on the barrel, while the shutter is located in the receiver with the possibility of longitudinal movement for a limited distance and rotation at a certain angle around its longitudinal axis, while the shutter and receiver are made with protrusions providing locking of the shutter, while these protrusions are located on the shutter and on the receiver in this way in order to provide locking of the shutter located in its extreme end position when it is rotated by a certain angle around its longitudinal axis, while those protrusions providing locking of the shutter that are located on the shutter are located along the shutter, and those protrusions that provide locking of the shutter that are located on the receiver are located along the section of the receiver, while on the receiver there are as many protrusions that lock the shutter as there are on the bolt, and those protrusions that lock behind thieves, which are located on the receiver, also serve as guides preventing the rotation of the shutter when it is not in the extreme front position, while the shutter is spring-loaded with a coil spring providing its movement to the extreme front position, while this spring is located behind the shutter, while the barrel with a shutter kinematically connected by a gear and a shaft, which, when the barrel or shutter is rotated, provide simultaneous rotation of the barrel and shutter in opposite directions, while the gear and shaft are located so as not to impede the feeding of the cartridge into the chamber and the ejection of the spent sleeve or unused cartridge, while the axis of rotation of the gear and shaft are parallel to the axis of rotation of the bolt, while the shutter is aligned with the bore of the barrel, while the gear is arranged to interact with the barrel and the shaft, and the shaft is arranged to interact with the gear and the shutter, while the shaft is made long enough to interact with the shutter when waiting for the shutter in any position, and the ends of the shaft are made in the form of gears, while on the surface of the barrel there are protrusions arranged to interact with the gear, while if the barrel is equipped with rifling, giving rotation to the projectile being shot, then the gas piston is in relative position with the gas cylinder such that when the bolt is unlocked, the barrel rotates in the same direction as the projectile being fired. 24. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 10, characterized in that it is equipped with a shutter, a receiver and a barrel, while a hole is made in the barrel wall, and the gas piston is attached to the barrel or made in the form of one part with it, while the gas piston is located near the aforementioned hole in the barrel wall, and the barrel is mounted on the weapon with the possibility of rotation around the longitudinal axis of the barrel bore at a certain angle, while the gas piston is located so that o the longitudinal axis does not intersect with the bore, while the mirror of the gas piston is located at a small distance from the bore, while the aforementioned hole in the bore wall is located near the gas cylinder in such a way as to allow powder gases to flow directly from the bore into the gas cylinder, this gas cylinder is fixedly attached to the receiver or made in the form of one part with it, while the barrel is spring-loaded with a spring ensuring the return of the barrel to its original position, while This spring is attached to the receiver and is made in the form of a twisted or flat spring located with the ability to act on the gas piston or with the ability to act on another protrusion located on the barrel, while the shutter is located in the receiver with the possibility of longitudinal movement for a limited distance and rotated by a certain angle around its longitudinal axis, while the shutter and receiver are made with protrusions providing locking of the shutter, while these protrusions are located on the shutter and on the receiver in such a way as to provide locking of the shutter located in the extreme end position when it is rotated by a certain angle around its longitudinal axis, while those protrusions providing locking of the shutter that are located on the shutter are located along the shutter, and those protrusions providing locking of the shutter located on the receiver, located along the section of the receiver, while on the receiver there are as many protrusions that lock the shutter as there is on the shutter, and those protrusions for locking the shutter, which are located on the receiver, also serve as guides preventing the rotation of the shutter when it is not in the extreme front position, while the shutter is spring-loaded by a coil spring providing its movement to the extreme front position, while this spring is located behind the shutter, in this case, the barrel with the shutter are kinematically connected by a gear and a shaft, which, when the barrel or the shutter is rotated, provide simultaneous rotation of the barrel and the shutter in in the opposite directions, while the gear and shaft are located so as not to impede the supply of the cartridge into the chamber and the ejection of the spent sleeve or unused cartridge, while the axis of rotation of the gear and shaft are parallel to the axis of rotation of the shutter, while the shutter is aligned with the barrel bore, the gear is located with the ability to interact with the barrel and with the shaft, and the shaft is located with the ability to interact with the gear and the shutter, while the shaft is made long enough to interact with the shutter when the shutter is in any position, and the ends of the shaft are made in the form of gears, while on the surface of the barrel there are protrusions arranged to interact with the gear, while if the barrel is equipped with grooves that impart rotation to the fired projectile, then the relative position of the gas a piston with a gas cylinder such that when the bolt is unlocked, the barrel rotates in the same direction as the projectile being fired. 25. The automatic reloading mechanism with a perpendicularly arranged gas piston according to claim 21, or 22, or 23, or 24, characterized in that it is equipped with an asterisk for moving the cartridge belt and an extractor for supplying cartridges from the cartridge belt to the cartridge sending line to the chamber, while a roller equipped with elastic protrusions is attached to the sprocket, while the roller equipped with elastic protrusions is located farther from the shutter than the sprocket, while the sprocket is aligned with the elastic protrusions roller, while the sprocket and the roller equipped with elastic protrusions are located on an axis attached to the receiver, while the sprocket and the roller equipped with elastic protrusions are rotatable around this axis, while the ratio of the diameter of the roller equipped with elastic protrusions with the diameter of that part of the shaft that interacts with a roller equipped with elastic protrusions such that when the shaft is rotated in a certain direction, the sprocket provides for the cartridge belt to move one step, while the receiver flax with a protrusion arranged to interact with the elastic protrusions located on the roller in such a way as to allow rotation of this roller in only one specific direction, while the elastic protrusions located on the roller are arranged to interact with the protrusions located on the shaft and made so that ensure the transfer of mechanical energy from the shaft to the sprocket when the shutter is unlocked or in such a way as to ensure the transfer of mechanical energy from the shaft to the sprocket and locking the shutter, while the extractor is kinematically connected to the shutter and is located with the possibility of longitudinal movement for a limited distance.