RU2721810C1 - Platform for small arms - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: platform for small arms consists of coupling, impact mechanism, lowering, safety lock, Picatinny rail, which is rigidly attached to coupling, descent transfer assembly, fuse transfer assembly, release transfer bus and safety lock. Platform is a monolithic part with structural elements made in it, in which parts of the descent transfer assembly, parts of the fuse transfer assembly and the trigger mechanism are placed. Transfer bar is rigidly fixed to coupling by means of handle screw, and transfer of lowering of trigger mechanism is made in form of traction rod. Coupling has inner cylindrical surfaces corresponding to diameters of the protrusion of the rifle box of the rifle and the base of the barrel, and a key which is brought into the hole in the coupling of the corresponding shape, located coaxially to the cylindrical hole of the barrel receiver.EFFECT: technical result is improvement of firing accuracy and absence of displacement of middle aiming point at various methods of rifle retention at the moment of firing, reduction of rifle length without change of barrel length, improvement of rifle balance, displacement of rifle mass centre to rifle shoulder, easier control of lowering and fuse.11 cl, 7 dwg

Description

The invention relates to the field of weapons, in particular to additional equipment for small arms, and can be used to upgrade the Dragunov sniper rifle and Tiger hunting carbines.

Small-sized small arms are known (patent for invention No. RU2574501 dated 09/04/2014) containing a barrel, a box with cartridges located below the barrel, offset from the central cross section of the input window of the receiver and fixed at an angle to the specified plane of the central cross section of the input window of the receiver, equal to permissible misalignment of the type of tape used, which enables the adjustment of the angle of inclination to the plane of the cross section of the input window of the receiver, trigger mechanism with a trigger and a trigger, assembled into a single module, characterized in that the single module is equipped with tactical and pistol grips at the base of the receiver the trigger is pivotally fixed, connected to the trigger mechanism by means of a rod transmitting the force to the sear trigger mechanism in a “pulling pattern” located to the left of the vertical plane passing through the longitudinal axis of the receiver, the forend is made about in the form of a structure having a gutter-shaped body, Picatinny rail is placed on the side and lower external surfaces of the forearm, which are used to fasten the bipod, tactical handle and additional devices for firing.

The described solution is aimed at achieving more accurate shooting in automatic fire mode and is not applicable in conditions under which it is necessary to achieve maximum accuracy of the shot.

Also known is a platform for mounting additional devices on a rifle (patent for the invention No. RU2628423 of 12.16.2015). The platform contains a lower bar with elements for attaching additional devices, an upper bar with elements for attaching additional devices, as well as a connecting sleeve for attaching the lower bar and upper bar, characterized in that the connecting sleeve is made with the possibility of sliding on the cylindrical protrusion of the barrel of the rifle and fixation on the receiver so that the rifle barrel does not touch the coupler, while the upper bar is provided with a dovetail groove for connection with the side bar of the rifle barrel.

The disadvantages of the described analogue are:

- the constant length of the rifle in relation to the base rifle on which the platform is mounted;

- when mounting the platform, shortening the cover of the receiver is required, and therefore, without this platform, the use of a rifle is not possible;

- it is difficult to clean the rifle due to the fixed part protruding above the receiver — the “upper bar with elements for attaching additional devices”.

Famous sniper rifle Dragunov. This rifle consists of the following main parts and mechanisms: a barrel with a receiver, an open sight and a butt; receiver cover; return mechanism; shutter frame; shutter, gas pipe with regulator, gas piston and spring pusher, barrel linings; trigger mechanism; fuse; score; butt cheek; optical sight; bayonet-knife (https://myauto-life.ru/materialnaya-chast-snajperskoj-vintovki-dragunova-svd/#materialnaya-chast-snajperskoj-vintovki-dragunova-svd-3).

The disadvantages of the described analogue are:

- the absence of Picatinny rail MIL-STD-1913 for mounting optical sights;

- an impressive length of the rifle (about 1220 mm);

- the sight is attached to a special side protrusion of the dovetail receiver, which requires the presence of certain brackets, and also introduces additional mobility in the barrel-sight system due to the flexibility of the rifle receiver and side bracket for attaching the sight to the receiver, due to than worsens the accuracy of the shot;

- rifle pads (forend) have a support on the rifle barrel through the front holder (forging), so the barrel is not freely hung, which leads to a shift in the mid-point of impact (STP) when switching from shooting from hand to shooting from the stop (bipod) and vice versa.

The closest technical solution, chosen as a prototype, is the SVU sniper rifle (OTs-03), which uses basic mechanisms and a modified receiver from the Dragunov sniper rifle. In the IED, a gas vent mechanism with a regulator and a short stroke of the gas piston is stored, as well as locking by turning the shutter from the SVD. The changes affected the trigger mechanism, which received a long thrust that performs the function of a pusher connecting it with the trigger pulled forward. The barrel was shortened by 100 mm, the gas chamber was shifted back. The connection of the trigger with the trigger is a trigger rod mounted along the left wall of the receiver. To reduce the impact on the recoil arrow, there is an elastic butt plate - a shoulder rest and a three-chamber muzzle device. The recoil pad is not rigidly fixed to the receiver, is equipped with a leaf spring and can slightly turn forward, absorbing part of the recoil energy. The muzzle device is complex and simultaneously plays the role of a muzzle brake, which absorbs up to 40% of recoil energy, a compensator-weight, which reduces barrel oscillations and shifts the center of gravity of the weapon, a flame arrester (http://weaponland.ru/load/snajperskaja_vintovka_svu_oc_03_svu_a_oc_as_as_as_as_as_as_as_as_as_as_as_as_as_as_as_as_as_as_as_as_as_a 0-402).

The disadvantages of the prototype are:

- the absence of Picatinny rail MIL-STD-1913 for mounting optical sights;

- transfer trigger USM made in the form of a pusher, i.e. when you press the trigger for firing, the trigger on the trigger is carried out using a pusher, which, due to low stiffness, bends, touching the protective cover, which leads to increased friction in the node and, as a result, the shooter is unable to perform a smooth descent, accordingly, the probability of an accurate shot is reduced;

- lack of transfer of the fuse lever, which complicates the management of the rifle;

- rifle pads (forend) have a support on the rifle barrel through the front holder (shackle), as in the case of the Dragunov sniper rifle (SVD), thus, the barrel is not freely hung out, which leads to the shift of the STP when switching from shooting from hand to shooting from an emphasis (bipod) and vice versa.

The task of the invention is to remedy the above disadvantages.

The technical result to which the present invention is directed is to improve the accuracy of shooting and the absence of STP displacement with various methods of holding the rifle at the time of the shot, reduce the length of the rifle without changing the barrel length, respectively, without changing the accuracy and range of the rifle, improve the balance of the rifle, etc. e. convenience of holding the rifle, shifting the center of mass of the rifle back to the shooter's shoulder, facilitating the descent and fuse control.

To achieve the technical result, a platform for small arms is proposed, consisting of a clutch, trigger mechanism, descent, fuse, descent transfer assembly, fuse transfer assembly, descent transfer bus and fuse, which is a monolithic part with structural elements made in it, which place the details of the trigger transfer assembly, the details of the fuse transfer assembly and the trigger mechanism comprising a Picatinny rail that is rigidly attached to the coupling, the transfer tire being rigidly attached to the coupling by the handle screw, and the trigger release of the trigger mechanism is made in the form of traction, except Moreover, the coupling has inner cylindrical surfaces corresponding to the diameters of the protrusion of the rifle receiver and the base of the barrel, and also contains a key that is inserted into the hole in the coupling of the corresponding shape, located coaxially with the cylindrical hole of the receiver.

The clutch is put on the barrel until it stops at the end of the receiver (SK). After that, the coupling is tightened like a clamp using the coupling tightening screws. The coupling key is attracted from below by the tightening screws of the coupling key to the cylindrical hole. Thus, having a fastening (clamp type) to the surfaces of the SK and the barrel, as well as lateral fastening with the help of the coupling key to the cylindrical hole, the coupling is securely fixed, as the main structural element of the structure, to the rifle, preventing it from sliding along the axis of the barrel, and rotation around the axis of the barrel during the operation of weapons. The clutch also has a special hole for the rifle pusher to pass through it to ensure the regular operation of the rifle's automation.

The Picatinny rail is attached to the coupling on top with screws and pins. Such fastening eliminates the displacement of the bar relative to the coupling, and, consequently, the axis of the rifle barrel. Thus, the position of the optical or other sight fixed on the bar remains unchanged with respect to the axis of the rifle barrel, which ensures the invariance of the mid-point of hit (STP) of the rifle.

Details of the descent carry include: trigger, trigger rocker, trigger rod, standard rocker trigger.

When you press the trigger, the trigger arm rotates, which leads to a longitudinal movement of the trigger pull, which leads to the rotation of the standard trigger trigger, which, in turn, rotates (presses) the standard trigger, the trigger for the rifle is activated, shot.

Transfer trigger USM made in the form of traction, i.e. when you press the trigger to fire the trigger, the trigger is pulled by tensile traction, which does not bend it, touch other elements of the rifle, which allows the shooter to perform a smooth descent, and the likelihood of an accurate shot increases accordingly.

The fuse transfer details include: fuse, fuse rod, fuse lever, fuse lever axis.

The fuse lever is attached to the axis of the fuse lever with a screw. The axis of the fuse lever has a structural groove for the fuse lever, preventing it from rotating about the axis of the fuse lever.

The axis of the fuse lever has a structural hole in which the curved end of the fuse rod is inserted. The fuse rod is a cylindrical rod with ends bent at 90 degrees in the same plane and in one direction (the letter "P"). The fuse rod is located in a special longitudinal groove of the transfer bus to the right of the rifle SK. The second curved end of the fuse rod is inserted into the structural hole of the fuse.

The fuse is inserted into a special structural hole of the transfer tire after it is installed in the assembly on the rifle.

The fuse is fixed inside the trigger with a snap ring in the groove, which eliminates its spontaneous loss during operation.

The transfer bus has the geometry of the internal surfaces such that it fits tightly on the rifle SK in width, and also fits snugly against the coupling and forearm of the rifle. Thus, the lateral displacement of the tire relative to the rifle during operation is eliminated.

The transfer bus has a structural hole in which the axis of the fuse lever is mounted, which is fixed from the inside of the tire by a spring retaining ring into the groove to prevent spontaneous loss during operation.

The invention is illustrated by drawings.

The figure 1 shows the barrel and receiver (SK) of the rifle, figure 2 - three types (front, top and rear) of the rifle with the declared platform, figure 3 - the butt and cheek of the rifle, figure 4 - the coupling and forend, and barrel and receiver, in figure 5 - the transfer bus descent and fuse (front and top views), in figure 6 - transfer bus 3D model, figure 7 shows the transfer mechanism of the descent and fuse.

Figure 1 schematically shows the SK (9.1), the barrel (9.2) of the rifle. This type of rifle acquires at the first stage of assembly of the structure after dismantling the equipment mounted on the barrel (9.2), as well as the pillar blocks from the cylindrical protrusion (9.1.1) of the SK (9.1) near the base of the barrel (9.2). The cylindrical protrusion (9.1.1) of the SK (9.1) has a cylindrical hole (9.1.2) remaining from under the pin fixing the block of the pillar.

The coupling (2.1) is put on the barrel (9.2) until it stops at the end face (9.1.3) of the SK (9.1). In this case, the coupling (2.1) has inner cylindrical surfaces corresponding to the diameters of the cylindrical protrusion (9.1.1) of the SK (9.1) and the base of the barrel (9.2.1). After that, the coupling (2.1) is tightened like a clamp using the tightening screws of the coupling (2.4). The coupling (2.1) also has an opening (2.1.1) corresponding in location to the cylindrical hole (9.1.2). The coupling key (2.2), having the corresponding shape, is inserted into this hole (2.1.1) and is drawn from below by the tightening screws of the coupling key (2.5) to the cylindrical hole (9.1.2). Thus, having a fastening (clamp type) to the surfaces 9.1.1 of SK (9.1) and 9.2.1 of the barrel (9.2), as well as transverse fastening with the help of a coupling key (2.2) to a cylindrical hole (9.1.2), reliable fixation is ensured couplings, as the main structural element of the structure, to the rifle, eliminating its sliding along the axis of the barrel, as well as rotation around the axis of the barrel during operation of the weapon. Also, the coupling (2.1) has a special hole (2.1.2) for the pusher (9.5) of the rifle to pass through it to ensure the normal operation of the rifle's automation. The Picatinny rail (3.1) is attached to the coupling (2.1) from above using screws (3.2) and pins (3.3). Such fastening eliminates the displacement of the bar (3.1) relative to the clutch (2.1), and, consequently, the axis of the barrel (9.2) of the rifle. Thus, the position of the optical or other sight mounted on the bar (3.1) remains unchanged relative to the axis of the barrel (9.2) of the rifle, which ensures the invariance of the mid-point of hit (STP) of the rifle. The coupling (2.1) also has a certain shape on the side of the SK for interfacing with the cover of the SK (9.4).

The Picatinny rail (3.1) has a spike (3.1.1), which when assembled with a sleeve (2.1) forms a rectangular groove (3.1.2), into which the spike of the SK cover is inserted when it is mounted on the rifle. Thus, the SK cover is fixed to the SK in a regular way. The spike (3.1.1) also serves as an additional “recoil paw”, i.e. eliminates the shift of the bar (3.1) with the front sight mounted on it as a result of the recoil force when firing back.

The forend clutch (5.3) is attached to the coupling (2.1) with the screws (5.5). The forend clutch (5.3) has a special hole (5.3.1) for the pusher (9.5) of the rifle to pass through it to ensure the normal operation of the rifle's automation. The forend (5.1) is attached to the forend coupling (5.1) with screws (5.6). In this case, QD-plates (5.4) are inserted between the screw caps (5.6) and the outer surface of the fore-end (5.1). The fore-end (5.1) has a series of through grooves (5.1.1) of a certain shape, made according to the KEYMOD standard, intended for installation of additional attachments (flashlight, LC, bipod, range finder, etc.). The forend cover (5.2) is attached to the forend (5.1) using the KEYMOD screws and nuts. The fore-end cover (5.2) covers the structural window (5.1.2) of the fore-end (5.1), intended for disassembling the rifle’s gas engine (piston, pusher, gas pipe) for cleaning. The fore-end cap (5.2) is necessary to protect optical and other sights, due to the layout of the Bullpups installed relatively close to the rifle’s gas block, from gases bursting through special structural holes in the rifle’s gas pipe to vent gases laterally at the end of the piston stroke at the moment of firing (automatic rifle work).

Butt (4.1) is installed in the SK slot for a standard rifle butt. It is attached to the SC from below through the butt mounting sleeve with a 2-sided QD base (4.6) with a standard M6x0.75 rifle butt screw. The stock has structural elements for installing a monopod (4.2). In the monopod (4.2), the monopod spindle screw (4.3) and the monopod rod (4.5) are rigidly fixed with spring pins. The monopod (4.2) is inserted into the butt (4.1) so that the monopod spindle (4.3) and the monopod rod (4.5) fall into the corresponding holes in the butt (4.1). In this case, the monopod nut (4.4) is inserted into the special groove of the buttstock (4.1) and screwed onto the monopod spindle (4.3). Thus, the rotational movement of the monopod nut (4.4) causes the translational movement of the monopod (4.2) vertically. In this way, the monopod height (4.2) is adjusted to point the rifle arrow at the target vertically. In this case, the monopod rod (4.5) prevents the rotational movement of the monopod (4.2) relative to the axis of the monopod spindle (4.3). Butt can also be performed without a monopod. The butt can also be made with a height-adjustable butt pad.

The transfer bus (1.1) is a monolithic part with structural elements made in it to accommodate the transfer components of the descent 6.1-14, the transfer parts of the fuse 7.1-4 and the trigger of the rifle. The tire (1.1) assembled with the parts for transferring the descent 6.1-14 (except for 6.11-12), the parts for transferring the fuse 7.1-4 (except 7.1) and the trigger of the rifle are attached to the rifle SC using the axis of the trigger (6.11), which is a standard cylindrical pin with internal threaded hole. The USM axis (6.11) replaces the standard axis of the USM rifle, which is removed from the SK rifle before assembling the structure. The USM axis (6.11) is set so that it passes through the hole in the rifle SK for the standard USM axis, as well as through special holes in the transfer bus (1.1), and is fixed with a screw (6.12) on one side to exclude the possibility of spontaneous loss during operation of the rifle . The USM axis (6.11) simultaneously passes through the through groove of the USM rifle body, coupled with the fuse (7.1), positioning the USM in the required regular position of the rifle.

The transfer bus (1.1) is attached to the coupling (2.1) by means of the handle screw (2.3). In this case, between the screw of the handle (2.3) and the transfer bus (1.1), the fire control handle (8) is installed. Those. with one screw of the handle (2.3), both the handle (8) and the transfer bus (1.1) are attracted to the coupling (2.1). The trigger clip (6.2) is attached to the transfer bus (1.1) using screws (6.14). The bracket (6.2) has such a shape that the fire control handle (8) fits tightly onto it. Thus, the fire control stick (8) does not have the ability to shift or turn during operation of the rifle.

A distinctive feature is the installation of the fire control stick (8) with an offset to the right relative to the vertical plane passing through the barrel of the rifle. Thereby, a more convenient grip of the handle by the right hand of the arrow is achieved due to the displacement to the right of the rifle's magazine supply of cartridges, located directly behind the handle (8). Those. the store less “rests” on the wrist of the right hand. At the same time, the disadvantage of this design, as well as the entire bullpup layout as applied to SVD, is the inconvenience of shooting for left-handed shooters.

The transfer bus (1.1) has a geometry of internal surfaces such that it fits tightly on the rifle SK in width, and also fits snugly on the coupling (2.1) and the forearm (5.1). This eliminates lateral displacement of the tire (1.1) relative to the rifle during operation.

The transfer bus (1.1) has a constructive through window in which the key of the transfer bus (1.2) is installed, having an opening for the handle screw (2.3). The key (1.2), together with the axis of the trigger (6.11) excludes the longitudinal displacement of the tire (1.1) relative to the rifle during operation. The transfer bus (1.1) has a structural hole in which the axis of the fuse lever (7.4) is mounted, which is locked from the inside of the tire (1.1) by a snap ring in the groove (7.4.1) to prevent spontaneous loss during operation.

The fuse lever (7.3) is attached to the axis of the fuse lever (7.4) with a screw. In this case, the axis of the fuse lever (7.4) has a structural groove for the fuse lever (7.3), excluding its rotation relative to the axis of the fuse lever (7.4). The axis of the fuse lever (7.4) and the fuse lever (7.3) can be made as a single part, but this is less technologically advanced. The axis of the fuse lever (7.4) has a structural hole (7.4.2) into which the bent end of the fuse rod (7.2) is inserted. The fuse rod (7.2) is a cylindrical rod with ends bent at 90 degrees in the same plane and in one direction (letter “P”). The fuse rod (7.2) is located in a special longitudinal groove (1.1.1) of the transfer bus (1.1) to the right of the rifle SK. The second bent end of the fuse link (7.2) is inserted into the structural hole (7.1.1) of the fuse (7.1). The fuse (7.1) is inserted into a special structural hole of the transfer bus (1.1) after it is assembled on the rifle. The fuse (7.1) passes through the standard openings in the SK and USM rifles. The fuse (7.1) has structural grooves (7.1.2), the same as in the standard fuse, into which the elements of the standard trigger come in when the trigger is pulled in the “Fire” position to fire a shot. In the “Fuse” position, the fuse (7.1) rotates around its axis inside the trigger mechanism in such a way that when the trigger is pulled, the trigger cannot trigger movement to fire a shot - it cannot go into the structural slots (7.1.2) of the fuse (7.1) ) Thus, the fuse (7.1) works just like a regular fuse.

Turning the fuse lever (7.3) with the index finger through the axis of the fuse lever (7.4) leads to a linear longitudinal movement of the fuse link (7.2), which in turn leads to the rotation of the fuse (7.1). This controls the fuse.

The fuse (7.1) is fixed inside the trigger assembly using a snap ring in the groove (7.1.3), which eliminates its spontaneous failure during operation.

The groove (1.1.1) of the transfer bus (1.1) and the right wall of the SK rifle form a rectangular cavity that provides free necessary movement of the fuse link (7.2), but at the same time, restricts the fuse link (7.2) from shifting to the left and out of engagement of the bent ends of the rod with holes 7.4.2 and 7.1.1 of the axis of the fuse lever (7.4) and fuse (7.1), respectively.

The transfer bus (1.1) has structural elements (cavities, grooves and openings) for placement, positioning and fastening of the descent transfer parts in them. The transfer bus (1.1) has a window at the bottom (1.1.3) corresponding to the window (shaft) of the SK rifle store according to its location.

The trigger (6.1), when pressed to fire, rotates around the axis (6.3). In this case, the groove in the transfer bus (1.1) and the axis (6.3) do not allow the hook (6.1) to make any other movements. The trigger (6.1) when you press it to fire the lower part, presses on the shoulder (6.4.1) of the rocker arm of the trigger (6.4), which rotates around its axis (6.5), other movements of the rocker arm (6.4) are excluded due to the groove in transfer bus (1.1). The opposite arm of the rocker arm (6.4) has an opening (6.4.2) into which the curved end of the trigger rod (6.6) is brought up from the bottom. The trigger rod (6.6), by analogy with the fuse rod (7.2), is a cylindrical rod with ends bent at 90 degrees in the same plane and in one direction (letter “P”). The trigger rod (6.6) is located in a special longitudinal groove (1.1.2) of the transfer tire (1.1) to the left of the rifle SK. The opposite curved end of the trigger rod (6.6) is brought up and down into the hole 6.8.1 of the standard rocker trigger arm (6.8).

The groove (1.1.2) of the transfer tire (1.1) and the left wall of the SK rifle form a rectangular cavity that provides the necessary free movement of the trigger rod (6.6), but at the same time restricts it from shifting down and out of engagement of the curved ends of the rod with holes 6.4.2 and 6.8.1 of the trigger arm (6.4) and the standard trigger arm (6.8), respectively.

The standard trigger hook (6.8) is located inside the trigger for the rifle, for which a slot is made in the trigger for the exit of one shoulder (with a hole 6.8.1) of the rocker arm to the left for the trigger. Also, holes are made in the trigger housing for attaching the guide beam of the standard trigger (6.10) and the axis of the beam of the standard trigger (6.9). The guide (6.10) and the axis (6.9) limit the movements of the rocker arm (6.8) only by rotation around the axis (6.9). The guide (6.10) is attached to the trigger assembly using screws (6.15) from the bottom.

The rocker of the standard trigger (6.8), when turning around the axis (6.9) with the shoulder opposite to the hole 6.8.1, presses the standard trigger, which at the same time rotates around its axis and puts the USM rifle into operation to fire the shot.

Thus, when you press the trigger (6.1), the trigger rocker (6.4) rotates, which leads to a longitudinal movement of the trigger rod (6.6), which leads to the rotation of the standard trigger (6.8) rocker, which, in turn, rotates (presses) the standard trigger, the trigger for the rifle is activated, a shot is fired. When releasing the trigger (6.1), all links of this chain return to their original position thanks to the return spring of the standard trigger.

The standard trigger of the trigger for the rifle is shortened so that it does not protrude from the bottom of the trigger for the trigger. The standard trigger guard, which no longer fulfills its function, is removed (cut off) from the trigger of the trigger system - preventing an accidental shot when the trigger is accidentally grazed. Clearly, the trigger and fuse transfer mechanisms are shown in Fig. 7.

The cheek (10) serves to position the shooter's head when aiming. The cheek can be unregulated in the vertical and horizontal plane and is attached to the cover of the rifle SK (9.1) with, for example, rivets, glue, etc. Alternatively, the cheek (10) can be made adjustable in the vertical and horizontal plane, while having a fixed a base mounted on a dovetail-type protrusion (which, when a bullpup rifle is built, becomes unsuitable for mounting a sight on it) (9.1.4) the rifle SK (9.1), and a directly movable cheek that can move up to a certain range down and left-right relative to the fixed part, and be fixed in the selected position.

The presence of the Picatinny rail MIL-STD-1913 for mounting any optical / night / thermal imaging sights eliminates the need for special "side" brackets with additional flexibility, leading to poor accuracy. Transfer trigger USM, made in the form of traction, allows the shooter to perform a smooth descent, respectively, increases the likelihood of an accurate shot. Carrying a fuse simplifies rifle control. Due to the transfer of the descent and the fuse, the control is facilitated, since both of them are controlled by the index finger without changing the grip of the weapon with the same aiming of the weapon and visual control of the target).

In addition, the rifle barrel is freely hung out, so the STP does not change when switching from shooting from hand to shooting from the stop (bipod) and vice versa. It is also possible to improve the accuracy of fire.

The analysis of patent and scientific and technical literature did not reveal technical solutions with a similar set of essential features, which allows us to conclude that the criterion of "novelty" of the claimed invention is met.

The claimed essential features that predetermine the receipt of the specified technical result, do not explicitly follow from the prior art, which allows us to conclude that the claimed invention meets the condition of patentability "inventive step".

Claims (11)

1. A platform for small arms, consisting of a clutch, trigger mechanism, descent, fuse, descent transfer assembly, fuse transfer assembly, descent transfer bus and fuse, characterized in that it comprises a Picatinny rail that is rigidly attached to the coupling, which is a monolithic part with structural elements made in it, in which the parts of the descent transfer unit, the details of the fuse transfer unit and the trigger mechanism are placed, the transfer bus being rigidly fixed to the coupling by the handle screw, and the trigger transfer of the trigger mechanism is made in the form of a rod, in addition, the coupling has inner cylindrical surfaces corresponding to the diameters of the protrusion of the rifle receiver and the base of the barrel, and also contains a key that is inserted into the hole in the coupling of the corresponding shape, located coaxially with the cylindrical hole of the receiver. 2. The platform for small arms according to claim 1, characterized in that the clutch has a special hole for the rifle pusher to pass through it. 3. The platform for small arms according to claim 1, characterized in that the descent transfer unit consists of a trigger, a rocker arm, a trigger rod, a rocker arm regular trigger. 4. The platform for small arms according to claim 1, characterized in that the fuse transfer unit consists of a fuse, a fuse rod, a fuse lever, an axis of the fuse lever. 5. The platform for small arms according to claim 1, characterized in that the axis of the fuse lever has a structural groove for the fuse lever, excluding its rotation relative to the axis of the fuse lever. 6. The platform for small arms according to claim 1, characterized in that the fuse rod is a rod with ends bent at 90 °, one end thereof being inserted into the structural hole of the axis of the fuse lever, and the other is inserted into the structural hole of the fuse. 7. The platform for small arms according to claim 1, characterized in that the fuse rod is located in the longitudinal groove of the transfer tire to the right of the receiver of the rifle. 8. The platform for small arms according to claim 1, characterized in that the fuse is inserted into the structural hole of the transfer tire after it is installed in the assembly on the rifle. 9. The platform for small arms according to claim 1, characterized in that the fuse is fixed inside the housing of the trigger mechanism using a snap ring in the groove. 10. The platform for small arms according to claim 1, characterized in that the transfer tire has a geometry of the inner surfaces such that it fits tightly on the receiver of the rifle, and also fits snugly against the clutch and forearm of the rifle. 11. The platform for small arms according to claim 1, characterized in that the transfer tire has a structural hole in which the axis of the fuse lever is mounted, which is fixed from the inside of the tire by a snap ring in the groove.

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