RU2467276C1 - Fire control handle - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to fire control handle of individual automatic fire gun. Said handle is coupled with gun body by fasteners. Said fasteners are composed of cylindrical pin joint with axis of turn located perpendicular to gun body central vertical plane. Joint fixed part is secured to gun body while its pin is arranged in said handle to be locked therein at various positions.

EFFECT: ease of grip.

2 dwg

Description

The claimed invention relates to parts devices for individual automatic firearms, in particular to the design of the fire control arms when firing from such weapons. It does not affect the design of the handles, the internal cavity of which is used to house the magazine with cartridges, for example, similar to the Israeli Uzi machine gun and the vast majority of types of pistols. Also, the claimed invention does not affect the design of the handles, made in one piece with the butt of a weapon, similar, for example, to an automatic sniper rifle Dragunov, "SVD".

There are a lot of designs of fire control handles when firing from individual automatic firearms, they often are very different from each other in appearance and in the angle of inclination of the handle relative to the barrel of the weapon. This is due to the wishes of the developers to create a comfortable fire control handle when grasping with the palm and fingers of your hand. It takes into account the time of the alleged aimed fire from a given weapon and the time of the alleged aimed fire, "over the areas", in the direction of the target. What time is longer, the angle of inclination of the handle of this weapon relative to its barrel is also oriented.

The fire control handle for firing from individual automatic firearms, detachably adjacent to the hull with the help of its fastening elements, was adopted as a prototype (see A. Kalashnikov’s “AKM” fire control handle, from the book “A Guide to Small Arms” A. B. Zhuk , Military Publishing House, Moscow, 1993. LBC 68.9 Zh85, UDC 623.443, ISBN 5-203-01631-3, part III, “Automatons”, chap. 106, “USSR”, p. 617 and p. 636, fig. 106 -5).

The essential features of the prototype, which coincide with the essential features of the claimed fire control handle, are as follows, the claimed fire control handle is detachably adjacent to the weapon body using its attachment elements to the body.

A disadvantage of the known fire control handle is its rigid fastening in one position on the machine during its manufacture. This handle can only be detached from the body when the weapon is completely disassembled. This position of the fixed fire control handle corresponds to aimed shooting at the target, i.e. when the butt of the weapon rests on the shoulder of the shooter, and the continuation of the line of aim is the target itself. During aimless shooting, when the butt is pressed against the shooter's waist or thigh, his hand, compressing the fire control handle, rigidly fixed in one position on the machine gun’s body, turns the machine gun’s body, and therefore the weapon’s barrel, down. The gun barrel goes from the direction to the target and begins to look into the ground a few meters ahead of the shooter. To return the barrel to the target, the shooter has to change the position of his fingers on the fire control handle. This is because the hand of a shooter holding a weapon by the handle, when moving from top to bottom in the shoulder and elbow joints, moves along arcs of two circles with radii depending on the individual structure of the shooter's body and his hands. And the arrow of the hand of the arrow with the fingers gripping the fire control handle must move in parallel so that the direction of the barrel does not change on the target, turning the base of the brush along with its fingers after the handle. The position of the arrow brush along with the fingers involved in the compression of the fire control handle changes in each of its positions from aiming fire at shoulder level to aiming fire in the direction of the target at hip level. The position of the fire control handle in the prototype at these positions of the hand of the arrow does not change. Those. the brush, together with the fingers involved in squeezing the fire control handle, moves from the shoulder level to the thigh level according to the laws of physiology of the shooter's body parts, and the fire control handle rigidly fixed to the weapon body does not always follow them with all the variety of poses of the shooter and the positions of the shooting weapon in him hands.

The technical problem to which the claimed fire control handle is aimed is to increase the convenience of fire control when aiming and aiming shooting in the direction of the target at different positions of the weapon from the level of the shooter's shoulder to the level of his thigh. Those. the shooter independently sets the position of the fire control handle convenient for his hand before shooting due to its rotation in the vertical plane of fire, taking into account the direction of the target and the future position of his weapon relative to his body when shooting. This reduces the number of sighting shots and decreases the time to hit the target.

To achieve the named technical result, the elements for attaching the fire control handle to the weapon body are made in the form of a cylindrical hinge with a pivot axis lying perpendicular to the average vertical plane of the weapon body, with the fixed part of the hinge fastened to the body, and the movable part of the hinge made in a fixed in different angular positions handle.

Distinctive features of the claimed fire control handle is that its fastening elements to the weapon body are made in the form of a cylindrical hinge with a pivot axis lying perpendicular to the middle vertical plane of the weapon body, with the fixed part of the hinge fastened to the body, and the movable part of the hinge made in different angular positions of the handle.

The inventive fire control handle can be used on many types of individual automatic firearms, taking into account the convenience of the shooter when using this weapon. The inventive fire control handle can be used both in newly developed designs and in previously upgraded designs of individual automatic firearms, in which the internal cavity of the fire control handle is not used to store the magazine with cartridges and which are not made in one piece with the butt of the weapon.

The essence of the invention is illustrated by drawings, which depict:

figure 1 - fire control handle, side view;

figure 2 is a design variant of the latch of the angular positions of the fire control handle, side view in longitudinal section along its vertical plane of symmetry, with three local sections.

The fire control handle 1 when firing from an individual automatic firearm (see Fig. 1) is pivotally attached to the weapon body 2. The axis of the hinge 3 connects the fixed part 4 of the hinge, rigidly fixed to the housing 2, with the movable part 5 of the hinge made in the upper part of the fire control handle 1. When the fixed part 4 of the hinge is in the form of an earring with a thickness of not more than the width of the safety bracket 6, it is possible to increase rigidity to fix the fixed part 4 of the hinge not only on the housing 2, but also fasten it with a continuation of the lower part of the safety bracket 6. The movable part 5 of the hinge on the upper end of the fire control handle 1 is made in the form of a double-arm a new fork with an internal groove of a width not less than the width of the safety bracket 6, covering on both sides the fixed part 4 of the hinge, made in the form of an earring. This allows you to rotate the fire control handle 1 around the axis 3 of the hinge forward, towards the trigger 7, partially run into part of the safety bracket 6. This is why the fixed part 4 of the hinge, fastened to the housing 2, is preferably performed in the form of an earring, and the movable part of the hinge 5 on the top of the fire control handle 1 in the form of a fork, covering on both sides the fixed part 4 of the hinge, made in the form of an earring, and not vice versa.

The height axis of the hinge 3 close to the body 2 can cause the thumb of the firing hand to be pinched when the fire control handle 1 is turned backward, away from the trigger 7. The height of the hinge 3 axis far from the body 2 can cause a section to appear on the rotary control handle by fire 1 in the region of the middle finger of the shooting hand or below it, which does not change its position in space, when the handle is rotated, which is also undesirable. The hinge axis 3 in height from the housing 2 is preferably located in the region between the index and middle fingers, compressing the prototype fire control handle. Those. the axis of the hinge 3 should be between horizontal planes parallel to the axis of the barrel and passing through the point of greatest curvature of the trigger 7 and the lower point of the safety bracket 6.

Figure 1 shows in dash-dotted lines the two extreme positions of the rotary fire control handle "A" and "B". Position "A" corresponds to the position of a horizontally shooting, above the head shooter located weapons. Position "B" corresponds to the position of the horizontal shooter, at the level of the upper parts of the legs of the shooter of the located weapon. In the above image, position “A” corresponds to 20 ° from the vertical towards the trigger, position “B” corresponds to 45 ° from the vertical towards the butt, i.e. from the trigger. There are developments of individual automatic firearms, where the “B” position corresponds to 60 ° from the vertical towards the butt (see the reference book of AB Zhuk, Part I “Rifles”, subsection “B” - “Self-loading and automatic rifles” , p. 549, chapter 49 “Germany until 1945” and the image of the self-loading automatic rifle “FG-42” (I model) on p. 548, Fig. 49-4). If you further increase the angle of position “B” to 90 ° from the vertical, towards the butt, it turns out that the fire control handle is parallel to the axis of the barrel, this will correspond to its possible position during storage and transportation of weapons to reduce its dimensions.

Figure 2 shows a possible design of the pin retainer of the rotary fire control handle in longitudinal section along its vertical plane of symmetry. The fixed part 4, made in the form of a hinge earring, is necessary for attaching the fire control handle 1 to the weapon body 2. In the drawing, it is fixedly connected to the casing 2 and to increase its rigidity - with the continuation of the safety bracket 6. If the connection points of the fixed part 4 with the casing 2 and the safety bracket 6 are detachable, then when upgrading weapons, it will be possible to change one fixed part 4 to another necessary for the fire control handle, using a different way of fixing the positions after their turns. On the outer radius surface 8 of the stationary part 4, several radial, for example, cylindrical recesses 9 are made with angular steps between them corresponding to the corners of the fixed positions of the fire control handle 1. In the center of the radius surface 8, a hole is made to accommodate the captive axis 3 of the hinge joint of the rotary part 5 of the handle fire control 1 with the fixed part 4. The rotary part 5 of the fire control handle 1 consists of a fixing part 10 and a control part 11. The fixing part 10 is intended and for placement inside its latch 12, for example, a pin with its spring 13, for example, a cylindrical, screw, freely placed in the glass 14 with a through hole for the passage of the latch 12. The rotary part 5 of the fire control handle 1 is attached to the fixed part 4 using captive hinge axis 3. The upper portion of the fixing part 10 together with the radius portion 15 is made in the form of a two-arm hinge fork, sliding with its inner surfaces on the outer surfaces of the fixed part 4, made in the form of an earring, when the fixing part 10 is rotated around the captive axis 3 of the hinge. The outer surface 16 of the lower portion of the fixing part 10 is a guide for the control part 11 when assembling the fire control handle 1 and during operation of the latch 12. The control part 11 of the fire control 1 is made in the form of a flat glass, designed to control the latch 12 and its inner surface 17 can it is unobstructed to move, as if on rails, on the outer surface 16 of the lower portion of the fixing part 10 in the direction of the longitudinal axis of symmetry of the fire control handle 1. Bottom of the control part 11 a cylindrical recess 18 with a through hole for passing the lower portion of the pin retainer 12 is inserted. This recess is intended to accommodate an element fastening the movable control part 11 to the retainer 12, made, for example, in the form of a round nut 19 with an internal thread and with external end slots for it axial rotation during assembly of the fixing part 10 with the control part 11. The working part of the latch 12 is made, for example, in the form of a rounded cone 20, below which is located fixed on the body fixed Sator 12 stop 21 for the spring 13. The lower portion of the latch 12 has a threaded section 22 for the internal thread of the round nut 19. Since the round nut 19 is in contact with the threaded section 22 on the latch 12 and with the cylindrical recess 18 of the control part 11, then, by tightening the round nut 19 on the threaded section 22 of the latch 12, it is possible by compressing the spring 13 to disengage the latch from the recesses 9 of the fixed part 4 of the hinge . But this design is not designed for this operation of the latch 12. Without screwing the round nut 19 onto the threaded portion 22 of the latch 12, it will work, but there will be a constant gap between the round nut 19 and the bottom of the cylindrical recess 18 on the control part 11. The exact same gap for dirt will also appear between the contacting ends of the fixing part 10 and the control part 11. What this design of the latch 12 is also not designed for. When assembling the fixing part 10, the control part 11 and the retainer 12 with the spring 13, the round nut 19 must be screwed onto the threaded portion 22 of the retainer 12 so as not to compress the spring 13 further and not allow a gap between the contacting ends of the fixing part 10 and the control part 11 of the moving part 5 fire control levers 1.

If necessary, change the angular position of the fire control handle, the shooter removes his index finger from the trigger 7 and removes it from the inner cavity of the trigger guard 6. While squeezing the control part 11 with the remaining fingers of his hand, pulls it down along the longitudinal axis of symmetry of handle 1. To increase friction between by the arrow and the outer surface of the control part 11, corrugations are performed on the lateral surfaces of the latter, and finger recesses can be made on the front part below the trigger guard 6. When moving the control part 11 downward, its inner surface 17 moves unobtrusively along the outer surface 16 of the lower portion of the fixing part 10 downward along the outer surface 16 of the lower part of the fixing handle 1. The round nut 19 is located in the cylindrical recess 18 of the control part 11 will also move down. But since the round nut 19 is screwed onto the threaded part 22 of the latch 12, it will move downward and the entire latch 12, which with its stop 21 fixedly fixed on the body of the latch 12 will compress the spring 13, which rests against the bottom of the glass 14 of the fixing part 10. Moving down, the latch 12 with its rounded cone 20 will come out of the cylindrical recess 9 of the outer radius surface 8 of the fixed part 4, and the movable part 5 of the fire control handle 1 can change its angular position. Without releasing the control part 11, which is lowered down, and therefore compressed by the spring 13 disengaged by the lock 12, the shooter turns the rotary part 5 of the fire control handle 1 to the new required position around the captive axis 3 along the arc of the radius surface 15 and weakens its compressive force the control part 11. The spring 13 of the latch 12 will begin to expand, pushing it up, and therefore the rounded cone 20 in the direction of the new cylindrical recess 9 of the outer radius surface 8 of the fixed part 4 of the hinge . Fire control handle 1 has taken a new fixed position necessary for firing. The cavity 23 in the movable part 5 of the fire control handle 1 is designed to accommodate part of the safety bracket 6 in it when the movable part 5 is rotated to its extreme position toward the trigger 7 (position “A” in FIG. 1). Between the housing 2 and the radius portion 15 of the fixing part 10 with the necessary clearance along the radius portion 15, two leveling plates 24 are made of wood or plastic on both sides of the fixed part 4 of the hinge. They are fixedly fastened together (fasteners not shown) and with the fixed part 4 of the hinge and serve to replenish the thickness of the movable part 5 on the fixed part 4 of the hinge, made in the form of an earring.

The inventive design of the rotary fire control handle when firing from individual firearm automatic weapons has an advantage over the prototype. Having such a handle on his weapon, the shooter in advance, taking into account the future position of his shooting weapon, independently sets this handle in the desired position, taking into account the structure of his palm, the length, width of his fingers and the mobility of the base of his hand. He can change this position himself when he wants. Thus, the shooter increases the convenience in controlling fire from his weapon, and therefore increases the efficiency of his fire.

Any clamp usually consists of two interconnected parts. This is the fixing part, which turns the movable and fixed parts of the structure into a single fixed block. And the control part of the latch, with the help of which the latch is introduced into the work or taken out of work. The control part of the latch can be placed on the weapon body, on the surface of the fixed part of the hinge, on the outer surface of the handle and even on the end surface of the axis of rotation of the handle. When the control part of the latch is located on the outer surface of the handle, the control element can move along the longitudinal grooves located on the side surface of the handle or on its rear surface. When moving down, the latch is disengaged from the fixed part of the hinge, and the fire control handle can freely occupy another angular position. When the control element is released under the action of the spring, the latch connects the handle to the fixed part of the hinge in its new angular position. The control element on the handle is pressed with the thumb, or with the lower fingers, or with the edge of the palm of the hand gripping the handle of the hand. When the control part of the latch is located inside the handle, the control element may be part of the handle itself. This part can longitudinally move downward, disengaging the latch and, under the action of the spring, returning it together with the movable part of the handle back. The same part without longitudinal movement along the length of the handle can be rotated around a longitudinal axis of the handle at some angle. Having inside the control part of the handle, in this case, a cylindrical bushing fixedly attached to it with an inclined screw groove, along which a pin slides, rigidly connected to a non-rotating fixing element movable along the handle, it is possible to disengage the locking mechanism by turning the control part of the handle in one direction when turning in the opposite direction, i.e. Returning the control part of the handle to its original position, engage the latch. You can use a screw-nut pair with multi-thread or with a large angle of inclination of the screw grooves.

It is possible to dispense with the control part of the latch by using, for example, a spring-loaded ball clamp - “ratchet”. There are many constructions of clamps, as well as methods for fixing the angular position of the handle. They will be even greater when weapons with rotary fire control arms appear. This is the use of the principle of piercing two compatible holes (or parts of holes) with a pin, or the use of cylindrical gears (external or internal with an arbitrary tooth profile), end gears of a triangular or arbitrary profile, pinion gears, etc. All these methods of fixing the position of the handle allow you to get only a discrete stepwise change in the angle of inclination of the handle relative to the barrel of the weapon. And when using the fixation of the position of the handle due to friction in the contacting surfaces of the hinge, a stepless smooth adjustment of the position of the handle relative to the barrel of the weapon appears. The main requirement for the fixing part and the control part of the clamp is the reliability of their work, the convenience of the arrow in handling them, simplicity and manufacturability in the manufacture of parts of the clamp.

Claims (1)

The fire control handle when firing from an individual automatic firearm, detachably adjacent to the body of the weapon using its fastening elements, characterized in that the fastening elements of the fire control handle to the body of the weapon are made in the form of a cylindrical hinge with a pivot axis lying perpendicular to the average vertical plane of the weapon body , with the fixed part of the hinge fastened to the body of the weapon, and the movable part of the hinge made in the handle fixed in different angular positions.

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