TR2022015901A1 - Trigger system with two degrees of freedom. - Google Patents

Abstract

The invention is related to the trigger system, which enables sequential shooting to be made accurately by preventing the firing line from being distorted, thanks to the joint that compresses a torsion spring by rotating on the axis perpendicular to the movement axis of the main body.

Description

DESCRIPTION TRIGGER SYSTEM WITH TWO DEGREES OF FREEDOM Technical field to which the invention relates: The invention is related to the trigger system that prevents distortion of the firing line by moving from two degrees of freedom with its articulated structure. The invention is particularly related to the trigger system, which enables sequential shooting to be made accurately by preventing the firing line from being distorted, thanks to the joint that compresses a torsion spring by making a rotational movement on the axis perpendicular to the movement axis of the main body. Known state of the technique: Mechanisms, devices and tools used for attack or defense are called weapons. Weapons are all tools and instruments that can kill, injure, or incapacitate living things from afar or close up, and disintegrate and destroy inanimate objects. Weapons are generally divided into two: firearms and non-firearms. While non-firearms have cutting, piercing or crushing features, firearms are classified as heavy firearms with a trigger mechanism and light firearms. Firearms throw objects of different shapes, weights and sizes, called bullets, into long distances with the effect of gunpowder gas. Weapons that require more than one person to use, such as cannons, howitzers, mortars, and anti-aircraft guns, are called heavy firearms, while weapons that can be used by one person are called light firearms. Light firearms are divided into two groups according to their barrel length: long-barreled firearms and short-barreled firearms. Single-shot, semi-automatic, automatic, rifle/non-rifle rifles can be given as examples of long-barreled firearms. Examples of short-barreled firearms, called pistols, include single-shot, rechargeable, semi-automatic or automatic pistols. Firearms consist of barrel, firing device, cartridge ejection device, cartridge dispensing device, sighting device, safety device and main body. The barrel is the part that sends the bullet to long distances. The firing device ensures the firing of the bullet that is ready to fire in the barrel. The firing assembly includes the trigger, hammer or firing pin, transmission parts and fire adjustment latch. The casing ejection device, which throws the remaining casing from the exploded bullet out of the gun, contains a tab or extractor. In order to ensure that the gun fires continuously, the cartridge dispensing device that feeds the gun with bullets includes the magazine, ball mounts, spring and the lower end of the needle chamber. The sighting device, consisting of the front sight and rear sight or binoculars or light systems, which ensure that the bullet fired by the barrel reaches the desired point, are auxiliary mechanisms for effective and accurate shooting. The safety equipment required for the safe carrying, use and storage of pistols consists of a safety latch, magazine safety, hammer safety and grip safety. The main body of the gun is where its main parts are assembled. The main body can be manufactured from various materials, and in addition to the main parts, there are also pistol grip covers and a carrying ring. While the trigger mechanisms of pistols create the trigger for firing the bullet, the movement of the trigger mechanism is provided by joints. The degree of freedom is determined according to the degree of directional movements of the joint in a single axis. The degrees of freedom of a mechanism is the number of parameters required to determine the position of all members in a mechanism. The degrees of freedom of the mechanisms depend on the number of limbs, the number of joints and the degree of freedom of the joints. Making a single movement on a single axis shows that the mechanism has one degree of freedom. The trigger mechanisms of pistols cause the hammer or needle of the pistol to be released as a result of a single degree of freedom movement due to rotation on a single axis when the shooter pulls the trigger. When the hammer or needle is released, the firing mechanism of the bullet begins. Since the trigger mechanisms, which work with a single degree of freedom for firing pistols, cannot accommodate the rotation movement on a single axis, the gun barrel deviates from the firing line and prevents the shooter from shooting accurately. After firing, the recoil effect of the gun and the rotation of the barrel combined with the barrel swinging also cause the firing line to be disrupted if the shooter fires consecutive shots. In addition, the fact that the trigger weight of the gun also affects these effects reduces the accuracy of shots made with one hand or when using service class guns with high trigger weights. The patent file numbered "TR201601620", which is in the state of the art, was examined. In the summary of the invention subject to the application, it is stated that "Basically; the casing that carries the entire structure and accommodates other elements, the mechanism that performs the cocking and locking functions, the trigger mechanism that performs the firing function, the barrel where the fired ammunition is directed to the target, the magazine that preserves the ammunition, by driving the said mechanism. It is a lever-operated gun consisting of lever elements that enable the gun to be cocked, and its feature is that it contains a jib element located on the back side of the said trigger assembly, not facing the barrel, where the lever makes a rotating movement by centering, and at least two lever arms connected to each other by movable joints, which provide movement transmission between the said lever and the mechanism. ' The patent file numbered "CN109341410A", which is in the state of the art, has been examined. In the invention subject to the application, a round pipe, a gear ring, a torsion spring, a guide ring and a latch are used to reduce the recoil effect and ensure accurate shooting in continuous shooting. and a trigger mechanism containing a reset spring. The patent file numbered "CN202903006U" in the state of the art has been examined. In the invention subject to the application, an adjustable gun trigger mechanism containing an ejection base, a trigger, and an L-shaped ejection rod is mentioned. The most important purpose of the invention is to enable the gun's trigger mechanism to rotate on an axis perpendicular to the axis of pull, thanks to its articulated structure. It reduces the effort the shooter spends on balancing the deviation from the horizontal axis of the barrel during trigger pull and enables the shooter to aim more easily, especially when shooting with one hand. The aim is to reduce the negative impact of missing the other hand. In this way, it ensures that the shooter stays on the firing line to make accurate shots. Another purpose of the invention is to reduce the diagonal deviation caused by the rotation of the barrel on the horizontal axis combined with the recoil occurring after the shot and the barrel heaving. The trigger mechanism that is the subject of the invention reduces the rotation on the horizontal axis and allows the shooting hand to move only in the vertical direction after the shot due to recoil and barrel adjustment. In this way, it enables the shooter to aim more easily for the next shot in case of repeated shots. Explanation of the figures: FIGURE -1; It is a drawing in the state of the art that gives a representative image of the deviation of the gun from the firing line while pulling the trigger. FIGURE -2; The subject of the invention is a drawing showing the side view of the trigger system. FIGURE -3; The subject of the invention is a drawing that gives a perspective view of the trigger system. FIGURE -4; The subject of the invention is a drawing that gives a perspective view of the details of the trigger system. FIGURE -5; The subject of the invention is a drawing showing the details of the main body of the trigger system. FIGURE -6; The subject of the invention is a drawing showing the details of the joint arm of the trigger system. Reference numbers: 100. Trigger System 110. Main Body 111. Claw 112. Claw Holes 120. Joint Arm 121. Protrusion 122. Protrusion Holes 130. Connection Pin 140. Return Spring A. Firing Line 8. Deflection Direction Description of the invention: Invention , the main body (110) containing the tabs (111) with nail holes (112), the joint arm (120) containing the protrusions (121) with protrusion holes (122), the connection pin (130) and the return spring (140). It is related to the trigger system (100). The joint arm (120) supports the movement of the shooter's finger on the horizontal axis while pulling the trigger. The main body (110) is mounted on the joint arm (120) and performs the basic function of trigger pulling movement. The connection pin (130) connects the main body (110), the joint arm (120) and the return spring (140). The return spring (140) is the torsion spring that brings the joint arm (120) to the initial position after the shot. They are positioned interlocking with each other so that they remain. After the main body (110) and the joint arm (120) are positioned interlockingly, the return spring (140) placed in the gap is fixed with the connection pin (130). The connection pin (130) passes through the protrusion holes (122) on the protrusions (121) of the joint arm (120), through the nail holes (112) on the nails (111) of the main body (110) and through the gap in the middle of the return spring (140). The return spring (140) connects the joint arm (120) and the main body (110). As shown in Figure 1, in the known state of the technique, the firing line (A) that the bullet will follow for an accurate shot is in line with the deviation direction of the shooter's hand used for shooting, since the joint arm (120) cannot rotate perpendicularly to the axis of movement of the main body (110). S) prevents accurate shooting by causing it to move correctly. The return spring (140), which enables the joint arm (120) to perform a rotation movement perpendicular to the movement axis of the main body (110) by connecting to the trigger system (100), which operates with a single degree of freedom, which causes accurate shots in the known state of the technique, and the trigger system (100). It allows it to work with two degrees of freedom. In order for the gun to fire, the finger on the joint arm (120) must apply pressure to the joint arm (120) and activate the trigger system (100). With the movement of the joint arm (120), the main body (110) moves on its own rotation axis and releases the firing mechanism. Meanwhile, the joint arm (120), which is connected to the main body (110) with the connection pin (130), in order to compensate for the movement of the finger in the horizontal axis and to ensure that the barrel of the gun remains on the firing line (A), while performing the rotation movement perpendicular to the axis of movement of the main body (110). It compresses the return spring (140). After the finger is separated from the joint arm (120), the compressed return spring (140) brings the joint arm (120) together with the main body (110) to the initial position. In this way, the trigger system (100) becomes ready for the next shot. TR