RU2103633C1 - Small arms - Google Patents

Abstract

FIELD: small arms, in particular, hunting guns with a fore grip that is movable for reloading. SUBSTANCE: small arms uses a barrel, receiver, underbarrel magazine, firing mechanism having a casing with two parallel vertical posts on the front end, feed mechanism in the form of a feeder with a tray hinge-mounted on the casing posts, reloading mechanism with a movable fore grip, and a locking lever with a fold flange for engagement with the reloading mechanism and hinge-mounted in the casing in the vertical plane; the post of the firing mechanism casing on the side of the locking lever has a stepped boss with a cut-out, and the locking lever has a shoulder on the front end before the fold flange. The introduced members prevent lateral and vertical displacements of the rear part of the reloading mechanism and of the front arm of the locking lever preventing a probable separation of the reloading mechanism from the locking lever. A cross-piece may be made between the casing posts at a distance not exceeding the cartridge length from the breech face; the tray has a length providing for engagement with the cross-piece, and longitudinal cut-outs are formed on the tray rear part. EFFECT: enhanced reliability and safety in handling due to enhanced stiffness of the construction. 2 cl, 9 dwg

Description

 The invention relates to the field of small arms, and more particularly to hunting weapons with a movable forearm for reloading.

Shotguns with a movable handguard for reloading (Pump-Action) - Colt handguard, which has become widespread since 1883 [1], are known and have distribution, for example, in the models:
Mossberg Model 500 (Pump Action Shotgun) 12, 20 and 410 calibers (according to the technical description and instruction manual for the weapon);
Modell Sdass 12 gauge, under a sleeve length of 70 mm or 76 mm (Magnum) [2];
Modell M-3 Super 90, 12 gauge, under a sleeve length 76 mm (Magnum) [2];
Remington Model 7600 [3];
Model 870 wingmaster [3]
and a number of other models.

 From domestic developments of rifles with a movable forearm for reloading, it is known, for example, "Firearms for hunting weapons" according to ed. St. N 694763.

 Weapons with a movable forearm for reloading have, as a rule, a tubular magazine located under the barrel, which ensures compactness of the entire structure.

 Weapons with a movable handguard for reloading in combination with an under-barrel tubular magazine allows targeted shooting with single shots with a relatively high rate of fire when the cartridges from the magazine are automatically fed into the barrel chamber.

 The main disadvantage of analogues is the unintentional rollback of moving parts in the rear direction when weapons fall, especially on the back of the butt, which is not allowed according to the requirements for weapons.

 The well-known 12-gauge Winchester Model 1200 12-gauge movable handgun for reloading [4], selected as a prototype, contains a barrel, a receiver, a tubular magazine located under the barrel, a locking mechanism with rotation of the shutter larva, a trigger mechanism with a feeder with tray, reloading mechanism with movable forend and locking lever.

 Details of the trigger mechanism are installed in the housing on its upper platform. In the front part of the upper platform platform there are two parallel vertical racks that are not connected to each other, and behind them two more racks, where a locking lever is installed pivotally in the vertical plane, made with a front bend that interacts with the reloading mechanism when the latter is in the extreme forward position , locked barrel and cocked parts of the trigger mechanism. The locking lever disengages from the reloading mechanism at the moment the trigger mechanism is triggered (when fired, for example) or when forced. Moving the front shoulder of the locking lever up or down limits the axis of the trigger, available in the trigger mechanism and going into the hole made in the front shoulder of the locking lever.

 Due to the design features of the prototype, the rear of the reloading mechanism has relatively long and relatively thin plate-type traction, one of which (left) acts with the bend of the locking lever. The locking lever is also a plate type. There are gaps on the sides of the rear of the reloading mechanism and the front shoulder of the locking lever: on the one hand, to the inner wall of the receiver, and, on the other, to parts on the trigger mechanism housing.

 In the event of a fall, especially on the back of the butt, weapons with moving parts (forend, reloading mechanism and shutter) held by the bend of the locking lever in the front position, the left link of the reloading mechanism and the locking lever are deformed (deformation - elastic) under the influence of inertial loads and move to lateral directions by the amount of gaps available. When moving to different sides, the reloading mechanism disengages from the limb of the locking lever, there is a breakdown of the recharging mechanism connected to other moving parts from the limb of the locking lever and the movable parts roll back in the rear direction. In this case, jamming of the parts of the weapon and the cartridge in the receiver takes place, and further firing becomes impossible until the jamming is eliminated and the moving parts return to their extreme forward position. In particular, the prototype for this purpose requires disassembling weapons with subsequent assembly. The presence of cartridges in the barrel chamber and magazine before the weapon falls after it falls is unsafe for the shooter and requires caution in eliminating jamming.

 In addition, in the prototype, with the parts of the trigger mechanism uninformed, there is no engagement between the reloading mechanism and the locking lever. The reloading mechanism is kept in the forward position only due to the locking mechanism engaging with the barrel, which is not enough to hold the moving parts in the forward position when the weapon falls: under the influence of inertial loads, the reloading mechanism moves in the rear direction and activates the locking mechanism, which leads to unlocking the channel barrel and further moving back the moving parts.

 In addition, if previously the details of the trigger mechanism are cocked, then after the trigger mechanism is fired and the shot is fired, as soon as the reloading mechanism disengages from the locking lever, the shooter holding the weapon by the forearm to the shoulder can unintentionally retract the reloading mechanism to some distance in the rear direction, which will lead to premature unlocking of the bore.

 The attachment point of the trigger mechanism in the prototype has a non-rigid thin-walled structure, which, when the reloading mechanism is disengaged from the locking lever in the event of a fall of the weapon, also experiences elastic deformation. The feeder at the topmost position of the tray is fixed with the back of the tray in the appropriate position on the trigger body, and pressing the tray with at least a finger from the bottom causes the feeder to deform elastically.

 It is known [5, p. 122], that when a cartridge is fixed in the barrel chamber by a sleeve flange, a cartridge with a sleeve length exceeding the required one and therefore more powerful can be inserted into the chamber under a certain force. The most probable similar situation can develop in smooth-bore weapons (hunting, sports, etc.), where plastic or paper shells are used in cartridges. So, if you insert a cartridge with a barrel length of 70 mm (albeit the same power) into the barrel with a chamber length of 65 mm, then when fired, the part of the cartridge case rolled up in the muzzle will not lie on the front of the chamber wall, but will go beyond the chamber length and will lie on the walls of the transition from the chamber to the bore of the barrel cone, which causes additional significant resistance for the projectile when it moves in the cone section, an increase in the rate of burning of the propellant charge, an increase in the pressure of the powder gases and, as a result, Tate, the occurrence probability or blow-gap chamber walls, and reducing the resource weapons. In the prototype, there is no “protection” from such a situation.

 Thus, the reliable operation of the mechanisms of the prototype and its safety during handling and shooting are not provided.

 The purpose of the invention is to increase the reliability of weapons and safety during handling and shooting by increasing the rigidity of the structure during the interaction of parts and mechanisms, as well as eliminating the possibility of feeding a cartridge with a sleeve length exceeding the required length from the magazine into the barrel chamber.

 The goal is achieved due to the fact that in small arms, mainly smooth-bore weapons, containing a barrel, a receiver box, a magazine under the barrel, a trigger mechanism made with two parallel vertical struts located on the front end of the upper case platform, a feeding mechanism having a cartridge feed with a tray pivotally mounted in the housing by means of two vertically spaced shoulders, a reloading mechanism with a movable forend and a locking lever made with a bend that interacts with the fur ism the reloading, and pivotally mounted in the housing in a vertical plane, according to the invention, a step protrusion with a cutout is made on the strut of the trigger mechanism housing from the side of the locking lever, the depth of which is not less than the thickness of the front shoulder of the locking lever, a step is made on the front end of the locking lever before bending corresponding to the protrusion, while the reloading mechanism interacts with the protrusion, the base of the bend interacts with the cutout on the protrusion, the surface of the end face of the bend on the side of the anizma reloading formed with a bevel facing the bore axis and the shoulder of the feeder tray is formed below the projection recess cooperating with the protrusion.

 In addition, in the weapon, a jumper can be made between the racks of the trigger mechanism housing at a distance from its front vertical surface to the cut of the breech of the table not more than the length of the cartridge, while the tray is made in length that provides contact with the jumper, and on the back of the tray are formed longitudinal cuts.

 The presence of a stepped protrusion with a notch on the strut of the trigger mechanism side of the locking lever and a ledge corresponding to the ledge on the locking lever before bending, the interaction of the base of the limb with a depth of not less than the thickness of the front shoulder of the locking lever of the protrusion and the interaction of the reloading mechanism with the protrusion along with the interaction a reloading mechanism with a limb, in which the surface on the side of the reloading mechanism is made with a bevel facing the axis of the barrel channel, and the implementation of the jumper between the struts of the housing increases the rigidity of the structure when the reloading mechanism is engaged with the blocking lever, eliminates lateral and vertical movements of the rear of the reloading mechanism and the front shoulder of the blocking lever both during a shot and when the weapon falls, and prevents the reloading mechanism from breaking with the blocking lever .

 Engagement of the reloading mechanism with the blocking lever with the exception of lateral movements of the rear of the reloading mechanism and the front shoulder of the blocking lever does not allow unintentional retraction of the reloading mechanism in the backward direction when firing, which ensures safety during operation of the weapon.

 The inertial loads that occur when weapons fall, especially on the butt, in the reloading mechanism are distributed between the locking lever and the trigger mechanism housing, and some of them are spent on the elastic deformation of the reloading mechanism part and the front shoulder of the locking lever, which are engaged. The rear part of the reloading mechanism, which interacts with the surface of the front end of the limb of the blocking lever, is pressed with the bevel of the bend to the step protrusion on the rack in the front of the body of the trigger mechanism, the rigidity of which in turn is increased by the jumper between the racks, the front part of the blocking lever due to the presence of a bevel on the limb, it is pressed against the side removable wall (cheek) on the body of the trigger mechanism, and the middle of the rear portion of the reloading mechanism from the rear end, the interaction Acting with the limb of the locking lever, to the location in the guide grooves of the front of the receiver is pressed against the inner wall of the receiver. The indicated distribution of inertial loads on the listed parts of the weapon parts does not cause the release of the reloading mechanism with the limb of the locking lever. Thus, changing the distribution conditions of the resulting elastic deformations does not disrupt the reloading mechanism from the locking lever when the weapon falls, which increases the reliability of its operation.

 Limiting the feed upward when it interacts (emphasis, contact) with the lower surface of the stepped protrusion and the jumper of the struts of the trigger mechanism increases the stiffness of the feed in the highest position at which the cartridges are sent (manually) to the magazine.

 The exception of the supply from the magazine to the chamber of the barrel of a cartridge with a sleeve length exceeding the corresponding one (the cartridge length also increases), protects the shooter from accidental use of a more powerful cartridge when shooting, which increases safety during the operation of the weapon.

 The cutouts on the back of the feeder tray provide simultaneous contact of the cutout on the feed arm from the step of the step to the lower surface of the last and rear of the tray into the jumper between the uprights on the trigger mechanism housing, which reduces the likelihood and the amount of elastic deformation of the feeder in its highest position.

 Figure 1 shows a small arms type related to smoothbore guns; figure 2 is a device and a diagram of the interaction of the reloading mechanism, the locking lever, the feeder of the feeding mechanism and the body of the trigger mechanism with the moving parts of the weapon in the extreme forward position and the locked bore, side view; figure 3 is a view a in figure 2 (the shutter is not shown); figure 4 - node I in figure 3; figure 5 is a device and a diagram of the interaction of the reloading mechanism, the locking lever, the feeder and the body of the trigger mechanism in the initial portion of the movement of the moving parts forward, side view; figure 6 - the body of the trigger mechanism, axonometric projection; in FIG. 7 - locking lever, axonometric projection; in FIG. 8 - cartridge feeder, axonometric projection; Fig.9 is a view along arrow B in Fig.8.

 Shooting weapons, the type related to smooth-bore shotguns, as shown in FIGS. 1-5, contains a barrel 1, a receiver 2, a housing 3 of a trigger mechanism with two parallel vertical struts 4, a reloading mechanism with a forearm 5, a right link 6 and left link 7, a locking lever 8 with a limb 9, a feed mechanism with a feeder 10 and a tubular magazine 11 located under the barrel 1.

 The barrel 1 is mounted on the receiver 2 and the tube store 11. The receiver 2 connects all the components of the weapon.

 The rods 6 and 7 of the reloading mechanism are located inside the receiver 2 and connected to the forearm 5. The forearm 5 is located under the barrel 1 on the tube of the magazine 11 and moves along it in the back and forth directions. Rod 6 and 7 are connected to the shutter 12.

 In the lower part of the receiver 2 there is a fixed housing 3 of the trigger mechanism, on which a locking lever 8 is pivotally mounted on the left side in the vertical plane, and shoulders 13 of the feeder 10 are pivotally mounted in the vertical plane of the racks 4, the tray 14 of which is located in receiver 2 in front of the housing 3 trigger mechanism.

 In the front part of the housing 3 (FIG. 6), two parallel posts 4 are vertically located, which are connected from above by a jumper 15. The front vertical surface 16 of the jumper 15 is located at a distance h from the breech section of the barrel 1 (FIGS. 2-4). On one of the struts 4 from the side of the locking lever 8 there is a stepped protrusion 17 with a notch 18. The depth of the cutout 18 relative to the vertical surface 19 on the stepped protrusion 17 is made not less than the thickness of the front shoulder of the locking lever 8.

 On the front shoulder of the locking lever 8 (Fig. 7), a bend 9 is made, facing away from the axis of the bore of the barrel 1. The surface of the front end 20 of the bend 9 is made with a bevel facing the axis of the channel of the barrel 1. Before bending 9 on the surface of the front end of the blocking lever A step 21 is made in step 8. In the middle of the blocking lever 8, a stiffening rib 22 is located. The rear shoulder of the blocking lever 8, having a bend downward, is made with a bend 23 to control the position of the blocking lever 8 in the weapon. The locking lever 8 is pivotally mounted on the rear struts 24 of the housing 3 of the trigger mechanism. When the front shoulder of the locking lever 8 is in its highest position, the base of its bend 9 is located in the notch 18 of the stepped protrusion 17 on the left pillar 4, and the ledge 21 of the locking lever 8 interacts with the lower surface of the stepped protrusion 17, which limits the upward movement of the front shoulder of the locking lever 8 with a limb 9.

 The feeder 10 (Fig. 8, 9) is made in the form of a horizontally located tray 14, which at the rear side passes into vertically arranged two arms 13 with cutouts 25, one of which, on the side of the stepped protrusion 17, at the extreme upper position of the tray 14 it is supported from below by a stepped protrusion 17 of the rack 4 of the housing 3. In addition, two cutouts 26 are made on the sides of the tray 14, which form part 27 of the tray 14 for supporting the latter from the bottom on the bridge 15 of the racks 4 of the housing 3 (the edge of the bridge is made as a support 15).

 To hold and direct the movements of weapon parts when firing and reloading both the trigger mechanism mounted on the housing 3 and interacting with them, the removable right cheek 28 and the left cheek 29 are fixed on the sides of the housing 3, which form side walls for the parts on the housing 3 .

 On the left side of the housing 3 of the trigger mechanism between the left cheek 29 and the left strut 4 there is a locking lever 8 and the left shoulder 13 of the feeder 10, and the locking lever 8 is moved between the left cheek 29 and the left shoulder 13 of the feeder 10, and the left shoulder 13 of the feeder 10 - between the locking lever 8 and the left pillar 4.

 When the reloading mechanism with the forearm 5 is in the forward position, when the barrel 1 is locked and the trigger mechanism on the housing 3 is cocked or not cocked, the limb 9 of the locking lever 8 is in its highest position, its surface 20 at the front end, made with a bevel, is meshed with the end face of the left link 7 of the reloading mechanism and keeps the latter from moving backward in the receiver 2. In this case, the surface portion of the base of the bend 9 of the locking lever 8 is adjacent to the surface of the cutout 18 steps of the protrusion 17 of the left strut 4 of the housing 3, the horizontal surface of the ledge 21 of the locking lever 8 is adjacent to the lower surface of the stepped ledge 17, the bend 9 of the locking lever 8 is located between the surface of the cutout 18 of the stepped ledge 17 and the inner surface of the wall of the receiver 2, the left rod 7 is adjacent to the upper surface of the left cheek 29 and is located between the surface 19 of the stepped protrusion 17 and the inner surface of the wall of the receiver 2, and the tray 14 of the feeder 10 occupies the lowest position with the support their front surfaces of the shoulders 13 in the respective housing space 3 under the action of a spring (not shown) at the rear end 13 of the right shoulder.

 When loading weapons, the shooter through the lower window of the receiver 2 manually inserts the cartridges into the magazine 11, forcing the tray 14 of the feeder 10 into the receiver 2 to the extreme position. In the initial position, the tray 14 of the feeder 10 is returned under the influence of a spring (not shown) after the termination of action on it.

 When sending the cartridge from the magazine 11 to the barrel chamber 1, the shooter first forcibly sets the rear shoulder of the locking lever 8 into the receiver 2 to the extreme position by the action of a finger on the lower limb 23 and holds it. In this case, the locking lever 8 is rotated, the limb 9 of the locking lever 8 is lowered, disengages from the rear end of the left link 7 and moves all the way to the recess on the left cheek 29. Next, the reloading mechanism for the forearm 5 is retracted by the arrow to the extreme rear position. When the reloading mechanism moves backward, the lower surface of the left link 7 slides along the upper surface of the left cheek 29 (the main direction of movement of the parts is made by the magazine tube 11 and the guide rods 6 and 7 in the front of the receiver 2), passes over the bend 9 of the locking lever 8, the shutter 12 after unlocking the bore 1 moves together with the reloading mechanism, the trigger mechanism is cocked, and the cartridge from the magazine 11 is fed to the tray 14 of the feeder 10, and the cartridge is moved back until it meets the front surface 16 of the jumper 15 racks 4 on the housing 3. If the cartridge length does not match the required, more than it, then after the cartridge stops on the surface 16 of the jumper 15 its front part (at the cut of the barrel) from the tube store 11, located in a vertical plane at the cross section at the level of the indicated cut of the barrel does not fully exit, and with subsequent actions the arrow will not feed the cartridge on the transfer line.

 After the movement of the reloading mechanism begins to move back, the shooter can continue to press with his finger on the lower limb 23 of the locking lever 8 or release it: this action will not affect the subsequent operation of the weapon mechanisms.

 To send the cartridge from the tray 14 of the feeder 10 into the chamber of the barrel 1, the reloading mechanism behind the fore-end 5 is moved by the arrow to the extreme forward position. In this case, the lower surface of the left link 7 slides along the upper surface of the left cheek 29 and passes over the limb 9 of the locking lever 8, the trigger mechanism in the housing 3 remains cocked.

 At the initial stage of forward movement, the reloading mechanism sets in motion a device (not shown) acting on the right shoulder 13 of the feeder 10 and moves the tray 14 of the feeder 10 with the cartridge to its highest position, in which the cutout 25 of the left shoulder 13 rests on the lower surface of the step ledge 17 of the left strut 4 of the housing 3, and the protruding part 27 of the tray 14 - on the edge between the lower surface and the front surface 16 of the jumper 15 of the racks 4. A cartridge of the corresponding length located in the tray 14 of the feeder 10 uw chambering. On the further path of moving the reloading mechanism forward, the shutter, rigidly connected to the latter, sends the cartridge into the chamber of the barrel 1, flushes the tray 14 of the feeder 10 downward, acting on the protrusion 30 of the tray 14, the tray 14, under the influence of a spring (not shown), on the right shoulder 13 feeder 10 is in its lowest position and locks the barrel 1.

 As soon as the reloading mechanism comes to its extreme forward position, the front shoulder of the locking lever 8, under the influence of a spring (not shown), rises, and the bend 9 of the locking lever 8 takes its initial position, i.e. the locking lever 8 is engaged with the left link 7 of the reloading mechanism and the ledge 21 of the locking lever 8 is attached to the lower surface of the step ledge 14 of the uprights 4 of the housing 3. If the arrow action on the locking lever continued throughout the entire cycle of moving the moving parts of the weapon back and forth, then lift the front shoulder of the locking lever 8 and its engagement with the left link 7 of the reloading mechanism is made after the termination of exposure.

 Before the shot, as well as during the shot, the shooter with one hand on the forearm 5 presses the weapon to his shoulder. At the same time, as with a weapon falling (on the back of the butt, mainly), an unintentional departure of parts of the reloading mechanism is hindered by the bending 9 of the locking lever 8. Under the influence of the arrow applied to the forearm 5, or inertial loads experienced by the parts of the reloading mechanism upon impact in as a result of the fall, the rear end of the left rod 7 of the reloading mechanism slides along the surface of the front end 20 of the bend 9 of the locking lever 8, made with a bevel facing the axis of the barrel 1, and the rod 7 is pressed extend to the surface 19 of the stepped protrusion 17. Thus, all the efforts from the parts of the reloading mechanism in this case are perceived by bending 9 of the locking lever 8 and the surface 19 of the stepped protrusion 17 of the left front strut 4 of the housing 3 of the trigger mechanism and are distributed between them, due to which Disengagement of the rod 7 with the locking lever 8 and moving back the movable parts of the weapon does not occur. If the inertial loads on the bend 9 of the locking lever 8 are larger in magnitude than the rigidity of the locking lever 8, then the latter is pressed by the rod 7 until it stops in the left cheek 29 of the housing 3 (elastic deformation). Since the thickness of the rod 7 exceeds the sum of the gaps between it and the surface 19 of the stepped protrusion 17, as well as between the locking lever 8 and the cheek 29, the release of the rod 7 with the locking lever 8 also does not occur. If the inertial loads also exceed the stiffness of the rod 7, then the latter bends (elastic deformation) along the length of the section from the place of engagement with the bend 9 of the locking lever 8 to the grooves guiding the rod 7 in the front of the receiver 2, and the bending is made towards the barrel wall box 2 to the stop of the middle part of the specified area in this wall, and the release of the rod 7 with the locking lever is also absent.

 When fired, the locking lever 8 does not change its position, i.e. its front shoulder with a limb 9 is in the upper position, and the reloading mechanism is kept from moving backward until the shooter forcibly drowns the lower limb 23 of the blocking lever 8 into the receiver 2. After the shot, the recoil force is transmitted from the bolt 12 to the rod 7, from her - on the limb 9 of the locking lever 8 and the surface 19 of the stepped protrusion 17, and then on to the housing 3 of the trigger mechanism, the receiver 2 and through the butt on the shoulder of the arrow, which is extinguished.

Thus, in the small arms of the invention:
increased rigidity of the structure during the interaction of parts in reloading mechanisms, supply and trigger, which increases the reliability of the weapon and safety when handling and shooting;
in the extreme forward position, the moving parts do not come off the locking lever in the event of a fall of the weapon;
the locking lever does not disengage from parts of the reloading mechanism without forcing the shooter to force it;
reduced probability and magnitude of elastic deformation of the feeder at the extreme upper position of the tray;
only those cartridges are used whose sleeve length is not more than required.

Claims (2)

 1. Small arms, mainly smoothbore, containing a barrel, a receiver box, a magazine under the barrel, a trigger mechanism having a housing made with two parallel vertical struts located on the front end of the upper housing platform, a feeding mechanism having a cartridge feeder with a tray, pivotally mounted in the housing by means of two vertically spaced shoulders, a reloading mechanism with a movable forend and a locking lever made with a bend that interacts with the mechanism is recharged ia and pivotally mounted in the housing in a vertical plane, characterized in that on the strut of the trigger mechanism on the side of the locking lever there is a stepped protrusion with a notch, the depth of which is not less than the thickness of the front shoulder of the locking lever, at the front end of the locking lever before bending ledge corresponding to the protrusion, while the reloading mechanism interacts with the protrusion, the base of the limb interacts with a cutout on the protrusion, the surface of the end face of the limb from the side of the reloading mechanism The line is made with a bevel facing the axis of the barrel channel, and a cutout interacting with the line is made on the shoulder of the feeder tray under the protrusion.  2. The weapon according to claim 1, characterized in that between the uprights of the trigger body a jumper is made at a distance from its front vertical surface to the cut of the breech of the barrel no more than the length of the cartridge, while the feeder tray is made in length, providing contact with the jumper, and longitudinal cutouts are formed on the back of the tray.

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