TR201910639A2 - A system that has a silencer feature that prevents recoil and rearing in weapons and increases the speed, range and effect of the bullet. - Google Patents

Abstract

The invention is a system that has a silencer feature that completely prevents recoil and rearing in weapons, and doubles the speed, range and effect of the bullet. With the mechanism of the present invention, by providing oxygen entry into the barrel, the combustion increases to the maximum and this enables the gunpowder to burn completely and to maximize its propulsion power. Gunpowder gas is gradually evacuated from the barrel, thus the bolt of the gun works very slowly and without jolting.

Description

DESCRIPTION MUFFLER FOR WEAPONS TO PREVENT REFLECTION AND PROJECTION A SYSTEM WITH ITS CHARACTERISTICS AND INCREASING BULLET SPEED, RANGE AND IMPACT Relevant Technical Field The invention is a silencer feature that completely prevents recoil and pitching in weapons. and it is a system that nearly doubles the bullet speed, range and impact.

Combustion by providing oxygen entry into the barrel with the mechanism that is the subject of the invention, maximizing the propulsion power, allowing all the gunpowder to burn. enables it to reach the highest level. Gunpowder, gradually from the barrel it is evacuated out, so the bolt of the gun is quite slow and jerky. works in a way that does not.

State of the Art In guns, there is a great pressure in the chamber with the explosion of the gunpowder during the shots. and as a result of this pressure, great forces acting on the body occur.

Recoil mechanisms ensure that the high ballistic forces of this type of heavy weapons They allow the effect of force to act on the supporting structure in a reduced manner. In addition, with the recoil mechanisms, both the support structure is lighter and The second ammunition is automatically placed in the chamber.

The purpose of the recoil mechanism; powder in a very short time (5-20 ms). The high ballistic forces formed in the chamber with the combustion of (02-05 3) and transmitted to the vehicle as a reduced force. Therefore, what is expected from recoil systems is their dynamic Peak forces, which are formed in a short time by taking advantage of its properties, take a long time to convert it to low forces in the range. used in the state of the art There are many recoil mechanisms and many sub-parts that make them up. Promise These mechanisms are designed, on the one hand, to prevent injury to the shooter or at least to use recoil as effectively as possible to reduce injuries. damping and forming a shot sequence before a shot is made from the other side to obtain and maintain accurate target acquisition by the shooter during is designed. The recoil mechanism directly affects weapon performance and weight. It has to be designed in accordance with the situation as it affects the situation. The right kickback Selection of mechanism type and sub-parts depends on system requirements. new They have higher performance than the designed weapons and at the same time they are unmanned. It is also desired that they be light enough to be carried easily in aircraft.

Kickback mechanisms consist of the following three basic parts: . Braking system that stops recoiling parts . System that brings the recoiled parts to the firing position - Cushioning system that adjusts speed in fulfillment recoil braking system; It consists of a hydraulic cylinder and piston mechanisms.

fulfillment system; consists of a recuperator and a fulfillment cylinder assembly.

In this system, the recuperator is used as an energy store. back of the mechanism Its arrival is provided by the energy stored by this recuperator. Types with pneumatic is achieved by compressing the gas. cushioning system; recoil brake similar way it works. The difference from it is that it works at a lower energy level.

If there is no cushioning in the system, there will be a very strong impact when the mechanism comes into place. occurs, which will damage the weapon. Cushioning on weapons without a cushioning system instead of the friction force that occurs in the sliding surfaces and the gaskets and seals. brings.

In standard weapons, the core rubs against the grooves and sets in the barrel at a certain rate. and at the exit, the core is compressed in the muzzle of the barrel, ejected from the barrel with high pressure and it advances to the target, but while doing this, the gunpowder ration in the hive a great deal goes to waste.

The anti-recoil systems existing in the state of the art prevent the projectile. This slows it down, which prevents the desired shot from being fired from the target value. causes.

To fire a bullet, a firearm lowers the bullet from the firearm barrel. a high-pressure pulse of hot gas at the back of the projectile to force it toward It uses an ignited propellant to create High pressure gases when it comes out of the muzzle, it is often referred to as a “muzzle blast”. they make noise. “Noise suppressors are often used in rifles to reduce muzzle blast. and used with firearms such as pistols. To reduce muzzle rise, suppressors It is attached to the end of the firearm barrel and high pressure gases are released from the firearm. It allows it to expand before exiting, thereby dissipating the pressure. from firearm a firearm, by dissipating the pressure behind the bullet before it exits suppressor can significantly reduce muzzle rise.

To allow high pressure gases to expand before exiting the firearm, a noise suppressor, a larger volume than in a firearm barrel creates. Noise suppressors often call this larger volume "compartments". They can form through a series of chambers called “The high behind the bullet the number and number of fins required to effectively dissipate pressurized gases, the caliber and barrel length of the weapon used and the type of ammunition used. It depends on a number of factors, including limitation. some hot To effectively suppress muzzle rise in guns, noise suppressors, high to ensure adequate dispersion of pressurized gases before exiting the firearm. it often uses a significant number of partitions to create the required volume. With this, increasing the number and size of partitions used in the noise suppressor, fiery increases the weight of the gun, which has a negative effect on the performance of the firearm. may have an effect. Lighter metals to reduce the weight of the printer suppressor designs using lighter metals are typically sufficient lacks strength and endurance.

Suppressors made from dissimilar materials also provide added durability. also has its problems because components made of different materials cannot be effectively welded together and with an outer pipe or an often weakened and they are held together by press / interference fits that allow the components to bump into each other When the components of the suppressor collide, it makes an additional sound and reduces its accuracy.

Today, studies are carried out on the armament of unmanned aerial vehicles. but under unmanned aerial vehicles to prevent kickback and snatching Despite the large and heavy shock absorbing salinoac profiles installed, recoil and landing can never be prevented. Therefore, it is necessary to shoot at the target repeatedly. it becomes impossible to hit the target when requested.

The current muffler, anti-kickback, braking, flame-hiding etc. in the world. none of the systems (subsonic so-called gunpowder ration reduced sound velocity Although bullets are used under cannot prevent.

Accordingly, it effectively suppresses the muzzle rise and increases the sensitivity of the firearm. a lighter and more durable noise suppressor that protects against recoil and tampering prevention is needed.

Description of Figures Figure 1. It has a silencer feature that completely prevents kickback and pitching. appearance of the mechanism Figure 2. Side view of the mechanism without the cover structure Figure 3. Rear perspective view without the cover structure of the mechanism Figure 4. The barrel and pressure discharge pipe of the mechanism and the filter appearance Figure 5. Assembled view of the barrel and pressure relief pipe Figure 6. Intermediate panel gaskets placed on the barrel and pressure relief pipe. appearance Figure 7. Intermediate panel gaskets placed on the barrel and pressure relief pipe. the inner insulation and filtration element placed on it and the view of the filter Figure 8. Intermediate panel gaskets placed on the barrel and pressure relief pipe, internal isolation and filtration element, filter and outer isolation and filtration at the top appearance of the element Figure 9. A view and detail of the filter with hole/gap/channel on it Figure 10. It has a silencer feature that completely prevents kickback and pitching. Exploded side section view of the elements of the mechanism Figure 11. . It has a silencer feature that completely prevents recoil and pitching. Exploded perspective section view of the elements of the mechanism Figure 12. Another view and detail of the filter with hole/space/channel on it Figure 13. Appearance and detail of the outer surface of the filter with a hole/gap/channel on it Figure 14. Cross-sectional view of the inner insulation and filtration element Figure 15. Cutaway view of external insulation and filtration element Figure 18. Another view and detail of the filter with hole/space/channel on it Figure 17. Another view and detail of the filter with hole/space/channel on it Figure 18. Another view and detail of the filter with hole/space/channel on it Description of the invention The invention is a silencer feature that completely prevents recoil and pitching in weapons. and it is a system that nearly doubles the bullet speed, range and impact.

As used in this detailed specification, the term "proximal" refers to the muzzle of the firearm. used to express the end of the nearest component or element and "distal" The term is used to refer to the end of the farthest component or element.

The invention is a mechanism (100) to be attached to the barrel (1) of the firearm. in the mechanism (100), the pressure splitter to be attached to the proximal end of the barrel (1) The pressure relief pipe (101), which is the component, is the pressure relief pipe (101). Multiple fireproof and pressure resistant inner insulation and filtration element (102), the filter (103) which is the bedding of the inner isolation and filtration element (102), the outer isolation and filtering element (106) that will close the filter (103) from the outside and this It has a cylindrical sheath (105) that will house the elements in it. Aforementioned each internal isolation and filtration element (102) as required by the mechanism (100). It is preferably made of felt, which will enter between and be positioned in the filter (103). Intermediate panel gaskets (104) can be added.

Coming out of the barrel (1) with the mechanism (100) shown in figure 1, which is the subject of the invention, was developed. instead of the bullet core protruding from the barrel (1), groove and In the sets, by playing with the scale angles of the groove set at certain sizes and angles, the bullet can be removed from the barrel. (1) It ensures that the output is released softly and accelerated.

Combustion by providing oxygen entry into the barrel (1) with the mechanism (100) which is the subject of the invention, maximizing the propulsion power, allowing all the gunpowder to burn. enables it to reach the highest level. Gunpowder, gradually from the muzzle (1) is evacuated abroad. Impact with certain proportions of holes in the barrel (1) Air reinforcement is made into the barrel (1) by using the reaction and reaction. Formed gas figure Pressure relief of bore/hollow structure at the proximal end of the barrel (1) shown in Thanks to its pipe (101), it divides the pressure and distributes it inside the apparatus and thus the bolt of the gun works very slowly and without jerking.

The pressure relief pipe 101, which the mechanism 100 has, is a part of the invention. in its application; It has a cylindrical form and is placed on the cylindrical surface in question. it has more than one cavity/hole structure in all or part of it. Aforementioned holes/spaces can be in the same geometric form or in different diameters or can be geometrical. The mechanism to be connected with the barrel (1) (100), starting from the proximal end where it will be connected to the barrel (1), pressure relief tube (101) extending to the distal end of the mechanism. During the firing of the bullet, thanks to its perforated / hollow cylindrical structure. It is ensured that the pressure formed is disintegrated and discharged.

Inner insulation and filtration element forming the housing of the pressure relief pipe (101) (102), on the other hand, is made of any material that is non-combustible and resistant to pressure. preferably made of felt or rubber. The interior in question shown in Figure 14 The isolation and filtration element (102) consists of more than one conical chamber (10).

In the center of each of the more than one non-integrated conical chamber (10), through There is a pipe slot (11) where the pressure discharge pipe (101) will be located.

The diameter of the base (13) of the conical chamber (10) is larger than the ceiling (14) of the conical chamber (10). is big. A conical partition (10) bases (13) on the next conical the ceiling of the chamber (10) is aligned consecutively with the ceiling (14). Each cone there is a filter (103) in which the chamber (10) will be placed and which is in a monolithic structure. it has more than one conical partition slot (20) to be a slot for the chamber (10). Each a muffler baffle seat (21) may be located between a conical baffle seat (20). Each when the conical baffle (10) is placed in the conical baffle slot (20), it is successively intermediate panel gaskets (104) between each conical partition (10) positioned and the muffler is placed in the chamber (21). The filter (103) has the conical partition slot (20) has the same geometrical structure as the conical partitions (10), It has more than one conical geometry that is connected with each other. Each cone there are more than one hole/gap/channel over the partition housing (20) surfaces.

Said holes/spaces/channels have the same diameter and the same geometry. They can have different diameters and geometric forms.

The conical partition slot surface (201) has the conical partition slot (20). the outer part of the muffler compartment housing (21) with the same or different geometric gaps. The outer surface (202) of the muffler chamber housing, which is the same or different geometric It has spaces in the figures. These hollow structures formed are round, rectangular, They can have multiple and different structures such as polygons or trapezoids or channels. Promise Thanks to the holes/gaps/channels in question, the gas coming out of the barrel (1) It is ensured that the pressure is fragmented, divided and minimized.

Different examples for the geometric void structures in question in Figures 9,12,16,17 and 18 has been shared.

Internal isolation and filtration element (102) positioned in the mechanism (100), and supporting the outer insulation and filtration element (106) and the intermediate panel gasket (104) Special fireproof insulation materials in clay felt, rubber or spongy texture can be used.

Inside the pressure relief pipe (101), the inner insulation and filtration element (102) positioning and then the inner isolation consisting of more than one conical compartment (10) and after the filtration element (102) is positioned in the filter (103) preferably the intermediate panel gaskets (104) will coincide between each conical section (101) In the figure, the silencer compartment housing (21) that the filter (103) has is positioned. It will cover the filter (103) having a hollow structure and Specially produced outer casing that will prevent the air coming out of the gaps from coming out. There is an isolation and filtering element (106). The internal insulation and strainer (102) and outer insulation and strainer (106), barrel (1) by filtering the pressure coming out of it and entering the air chambers inside itself. It traps and destroys the pressure created by the gunpowder gas gradually. it provides. In this way, the inner insulation and filtration element (102) and external insulation and filtration element placed outside (106) was created. It will be placed on the outer part of the filter (103) and a slot on the filter (103). The outer insulation and filtration element (106), which will serve as a monolithic or monolithic may consist of more than one division in non-structural. to be placed in external isolation and filtering element (106), which will serve as a socket for the filter (103), It has a form that will be compatible with the geometric structure of the outer surface of the filter.

In the center of the pressure relief pipe (101) of the perforated/hollow/channel construction more than one conical chamber (10) above the pressure relief pipe (101) The inner insulation and filtration element (102), which has internal insulation and filtration monolithic with hollow/hole/channel structure on element (102) to the filter (103) in the structure, the intermediate section to be positioned between each conical chamber (102) panel gaskets (104), outer insulation and filtration element on the filter (103) (106) and the cylindrical sheath that will contain all these structures (105) recoil and swaying experienced in firearms thanks to the mechanism that has is prevented, when it is desired to shoot the target repeatedly, the target is the desired target. It is provided to be shot in a way.

In one embodiment of the mechanism (100), which is the subject of the invention, a 5.7 mm diameter about one second after the target at a distance of 200 meters in the projectile is hit, the slider can actuate and evacuate the empty cartridge case and place the full in the bullet chamber. can place.

The mechanism (100), which is the subject of the invention, is suitable for all kinds of long or short-barreled weapons. and unmanned aerial vehicles suitable for all ammunition types is the mechanism (100).

Thanks to this new mechanism (100), which can be applied to all kinds of weapons, they Unmanned aerial vehicles (Drones) armed with skids are attached to swing profiles. won't need it. Weapons can be mounted directly to drones.

In addition, with this mechanism (100), it is one of the gun silencers available in the world. It has the feature of cutting sound at much less decibel levels. available in the world While the systems slow down the bullet, the barrel with the mechanism developed which is the subject of the invention thanks to the holes/spaces/channels drilled in certain proportions on the barrel combustion of gunpowder by supplementing the gunpowder inside with oxygen from outside. by maximizing the speed of the bullet core (core) This provides approximately double the bullet speed, range and impact. is taking off.

Claims (14)

REQUESTS . Pressure relief pipe (101), more than one fireproof and pressure-resistant inner insulation and filtering element (102) where the pressure relief pipe (101) will be located, inner insulation and filtering element (102) in order to ensure that the bullet core coming out of the barrel is softly freed and accelerated instead of jumping out of the barrel. ) bedding filter (103), external isolation and filtering element (106) that will close the filter (103) from the outside, and a cylindrical sheath (105) that will house these elements, and when necessary, every inner isolation and filtering element (102) has It is a mechanism that will enter between a conical chamber (10) and has intermediate panel gaskets (104) positioned in the filter (103), has a silencer feature that completely prevents recoil and thrust in weapons, and approximately doubles the speed, range and effect of the bullet (100). ). . It is the mechanism (100) mentioned in Claim 1, and its feature is that the pressure relief pipe (101) it has has more than one cavity/hole/channel structure in cylindrical form and on the said cylindrical surface in whole or in part. . It is a pressure drainage pipe as in Claim 2, and its feature is that the holes/spaces it has can be in the same geometric form as well as having different diameters or geometric forms. . It is the mechanism (100) mentioned in Claim 1, and its feature is that the inner insulation and filtration element (102) and the outer insulation and filtration element (106) are made of fireproof and pressure-resistant materials. . It is the mechanism (100) mentioned in Claim 1, characterized in that its internal isolation and filtration element (102) is composed of more than one conical section (10), which is not monolithic. . It is the mechanism (100) mentioned in Claim 1, and its feature is that there is a pipe slot (11) in the center of each of the conical sections (10) of the inner insulation and filtration element (102) it has, inside which the pressure discharge pipe (101) will be located. . It is the mechanism (100) mentioned in Claim 1, and its feature is that the diameter of the base (13) of each conical chamber (10) of the inner isolation and filtration element (102) it has is larger than the ceiling (14) of the conical chamber (10). . It is the mechanism (100) mentioned in claim 1, and its feature is that the filter (103) it has is in a monolithic structure and it has more than one conical compartment slot (20) to be a slot for each conical compartment (10). . It is the mechanism (100) mentioned in claim 1, and its feature is that the filter (103) it has is positioned between each conical compartment housing (20) and the silencer compartment housing (21). 10. It is the mechanism (100) mentioned in Claim 1, and its feature is that the filter (103) it has, the conical chamber slot (20), has the same geometrical structure as the conical partitions (10) and has more than one conical geometry that is interconnected with each other. is that. 11. It is the mechanism (100) mentioned in Claim 1, and its feature is that the filter (103) it has has more than one hole/space/channel over the surfaces of each conical compartment housing (20). 12. According to claim 11, the holes/spaces/channels on the conical partition housing (20) surfaces can have the same diameter and the same geometry, as well as have different diameters and geometric forms. 13. It is the mechanism (100) mentioned in claim 1, and its feature is that its external isolation and filtration element (106) has a monolithic or non-solid structure. 14. It is the mechanism (100) mentioned in claim 1, and its feature is that it has more than one cavity/hole/channel structure on all or some of the surfaces of the inner insulation and filtration element (102) and the outer insulation and filtration element (106).